From aff5a71d7c9927e5f5117446f860a31c7c829171 Mon Sep 17 00:00:00 2001
From: Xiao Gui <xgui3783@gmail.com>
Date: Fri, 24 Aug 2018 10:48:02 +0200
Subject: [PATCH] rc jugex coming soon, active selection encoding,
 ngViewerState, hover tooltip for tabs, jubrian pmap attribution, data window
 no longer duplicates, databrowser truncate name, MVP ng layer control

---
 src/atlasViewer/atlasViewer.component.ts      |   4 +-
 .../atlasViewer.dataService.service.ts        |   8 +-
 src/atlasViewer/atlasViewer.style.css         |  30 +++-
 src/atlasViewer/atlasViewer.template.html     |  32 +++-
 src/index.html                                |  29 ++--
 src/main-aot.ts                               |   1 +
 src/main.module.ts                            |   5 +-
 src/main.ts                                   |   3 +-
 src/res/ext/pmapsAggregatedData.json          |   2 +-
 src/services/stateStore.service.ts            |  72 ++++++++-
 src/ui/banner/banner.template.html            |   2 -
 src/ui/databrowser/databrowser.component.ts   |  14 +-
 src/ui/databrowser/databrowser.style.css      |   2 +-
 src/ui/databrowser/databrowser.template.html  |   2 +-
 src/ui/layerbrowser/layerbrowser.component.ts |   8 +
 src/ui/layerbrowser/layerbrowser.style.css    |   6 +
 .../layerbrowser/layerbrowser.template.html   |   6 +-
 .../nehubaContainer.component.ts              | 140 ++++++++++++++++--
 .../nehubaViewer/nehubaViewer.component.ts    |   4 +
 src/ui/pluginBanner/pluginBanner.component.ts |   8 +-
 src/ui/pluginBanner/pluginBanner.style.css    |  19 ++-
 .../pluginBanner/pluginBanner.template.html   |   6 +-
 webpack.aot.js                                |   4 +-
 webpack.ngassets.js                           |   2 +-
 webpack.staticassets.js                       |  12 ++
 25 files changed, 357 insertions(+), 64 deletions(-)

diff --git a/src/atlasViewer/atlasViewer.component.ts b/src/atlasViewer/atlasViewer.component.ts
index c3b8a47ea..0aaf3777b 100644
--- a/src/atlasViewer/atlasViewer.component.ts
+++ b/src/atlasViewer/atlasViewer.component.ts
@@ -257,7 +257,9 @@ export class AtlasViewer implements OnDestroy, OnInit, AfterViewInit {
     )
 
     this.subscriptions.push(
-      this.sidePanelView$.subscribe(v => this.layoutMainSide.showSide =  isDefined(v))
+      this.sidePanelView$.pipe(
+        filter(() => typeof this.layoutMainSide !== 'undefined')
+      ).subscribe(v => this.layoutMainSide.showSide =  isDefined(v))
     )
 
     /**
diff --git a/src/atlasViewer/atlasViewer.dataService.service.ts b/src/atlasViewer/atlasViewer.dataService.service.ts
index 2e89ddad7..d1f504271 100644
--- a/src/atlasViewer/atlasViewer.dataService.service.ts
+++ b/src/atlasViewer/atlasViewer.dataService.service.ts
@@ -20,9 +20,13 @@ export class AtlasViewerDataService implements OnDestroy{
         : Promise.resolve([]),
       BUNDLEPLUGIN
         ? fetch('pluginsManifests.json').then(res => res.json())
-        : Promise.resolve([])
+        : Promise.resolve([]),
+      fetch('res/plugins/manifest.json')
+        .then(res => res.json())
+        .then(json => [json])
+        .catch(e => Promise.resolve([]))
     ])
-      .then(arr => resolve(arr[0].concat(arr[1])))
+      .then(arr => resolve(arr[0].concat(arr[1], arr[2])))
       .catch(reject)
   })
 
diff --git a/src/atlasViewer/atlasViewer.style.css b/src/atlasViewer/atlasViewer.style.css
index d791080bd..09cb45dcb 100644
--- a/src/atlasViewer/atlasViewer.style.css
+++ b/src/atlasViewer/atlasViewer.style.css
@@ -122,6 +122,11 @@ div[contextualBlock]
   color:rgba(245,245,245,0.8);
 }
 
+span.tabContainer > *
+{
+  pointer-events: none;
+}
+
 [resizeSliver]
 {
   display:flex;
@@ -129,6 +134,11 @@ div[contextualBlock]
   align-items: flex-end;
 }
 
+[resizeSliver] span.badge:hover
+{
+  cursor:default;
+}
+
 [heading]
 {
   padding: 0.5em 0.7em;
@@ -145,6 +155,12 @@ span.tabContainer
   padding:1em 0.5em;
   margin-top:1em;
   position: relative;
+  opacity : 0.5;
+  transition: all 200ms;
+}
+span.tabContainer:hover
+{
+  opacity: 0.7;
 }
 
 span.tabContainer > span.highlightContainer
@@ -162,10 +178,13 @@ span.tabContainer > span.highlightContainer
 span.tabContainer > span.badge
 {
   margin-left:0.5em;
+  position:relative;
+  z-index:1;
 }
 
 span.tabContainer.active-tab
 {
+  opacity : 1.0;
   position:relative;
 }
 span.tabContainer.active-tab:before
@@ -176,5 +195,14 @@ span.tabContainer.active-tab:before
   top:0;
   width:100%;
   height:100%;
-  background-color:rgba(128,128,128,0.5);
+}
+
+:host-context([darktheme="true"]) span.tabContainer.active-tab:before
+{
+  background-color:rgba(20,20,20,0.8);
+}
+
+[dockedContainer]
+{
+  margin-top:0.2em;
 }
\ No newline at end of file
diff --git a/src/atlasViewer/atlasViewer.template.html b/src/atlasViewer/atlasViewer.template.html
index 9c2a27718..c1b156795 100644
--- a/src/atlasViewer/atlasViewer.template.html
+++ b/src/atlasViewer/atlasViewer.template.html
@@ -48,8 +48,9 @@
           <div heading>
             Tools Browser
           </div>
-          <div body>
-              
+          <div body>          
+            <plugin-banner>
+            </plugin-banner>
           </div>
         </panel-component>
       </div>
@@ -60,13 +61,20 @@
       </div>
       
       <!-- Docked Container-->
-      <ng-template #dockedContainer>
-      </ng-template>
+      <div dockedContainer>
+        <ng-template #dockedContainer>
+        </ng-template>
+      </div>
     </div>
 
     <div resizeSliver>
 
-      <span [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'dataBrowser'}" (click) = "toggleSidePanel('dataBrowser')" hoverable class = "tabContainer">
+      <span 
+        placement = "left"
+        [tooltip] = "!(selectedRegions$ | async) ? '' : (((selectedRegions$ | async).length === 0 ? 'No' : (selectedRegions$ | async).length) + ' selected region' + ((selectedRegions$ | async).length > 1 ? 's' : ''))"
+        [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'dataBrowser'}" 
+        (click) = "toggleSidePanel('dataBrowser')" 
+        class = "tabContainer">
         <span  [@newEvent] = "selectedRegions$ | async" class = "highlightContainer">
         </span>
         <i class = "glyphicon glyphicon-search"></i>
@@ -75,7 +83,12 @@
         </span>
       </span>
 
-      <span [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'ngLayer'}" (click) = "toggleSidePanel('ngLayer')" hoverable class = "tabContainer">
+      <span 
+        placement = "left"
+        [tooltip] = "!(layersLoaded$ | async | newViewerDisctinctViewToLayer) ? '' : (((layersLoaded$ | async | newViewerDisctinctViewToLayer).length === 0 ? 'No' : (layersLoaded$ | async | newViewerDisctinctViewToLayer).length) + ' loaded layer' + ((layersLoaded$ | async | newViewerDisctinctViewToLayer).length > 1 ? 's' : ''))"
+        [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'ngLayer'}" 
+        (click) = "toggleSidePanel('ngLayer')" 
+        class = "tabContainer">
         <span  [@newEvent] = "layersLoaded$ | async | newViewerDisctinctViewToLayer" class = "highlightContainer">
         </span>
         <i class = "glyphicon glyphicon-list"></i>
@@ -84,7 +97,12 @@
         </span>
       </span>
 
-      <span [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'toolsBrowser'}" (click) = "toggleSidePanel('toolsBrowser')" hoverable class = "tabContainer">
+      <span 
+        placement = "left"
+        tooltip = "Tools Browser"
+        [ngClass] = "{'active-tab' : (sidePanelView$ | async) === 'toolsBrowser'}" 
+        (click) = "toggleSidePanel('toolsBrowser')" 
+        class = "tabContainer">
         <i class="glyphicon glyphicon-wrench"></i>
       </span>
     </div>
diff --git a/src/index.html b/src/index.html
index ec4d02f37..33f639768 100644
--- a/src/index.html
+++ b/src/index.html
@@ -1,15 +1,16 @@
-<!doctype html>
-<html>
-  <head>
-    <link rel = "stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.7/css/bootstrap.min.css" integrity="sha384-BVYiiSIFeK1dGmJRAkycuHAHRg32OmUcww7on3RYdg4Va+PmSTsz/K68vbdEjh4u" crossorigin="anonymous">
-    <link rel = "stylesheet" href = "extra_styles.css">
-    <link rel = "stylesheet" href = "plugin_styles.css">
-
-    <!-- <link rel = "stylesheet" href = "styles.css" /> -->
-  </head>
-  <body>
-    <atlas-viewer>
-
-    </atlas-viewer>
-  </body>
+<!DOCTYPE html>
+<html lang="en">
+<head>
+  <meta charset="UTF-8">
+  <meta name="viewport" content="width=device-width, initial-scale=1.0">
+  <meta http-equiv="X-UA-Compatible" content="ie=edge">
+  <link rel = "stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.7/css/bootstrap.min.css" integrity="sha384-BVYiiSIFeK1dGmJRAkycuHAHRg32OmUcww7on3RYdg4Va+PmSTsz/K68vbdEjh4u" crossorigin="anonymous">
+  <link rel = "stylesheet" href = "extra_styles.css">
+  <link rel = "stylesheet" href = "plugin_styles.css">
+  <title>Interactive Atlas Viewer</title>
+</head>
+<body>
+  <atlas-viewer>
+  </atlas-viewer>
+</body>
 </html>
\ No newline at end of file
diff --git a/src/main-aot.ts b/src/main-aot.ts
index 18aa38234..b95eb9bc6 100644
--- a/src/main-aot.ts
+++ b/src/main-aot.ts
@@ -6,5 +6,6 @@ import { MainModule } from './main.module';
 const requireAll = (r:any) => {r.keys().forEach(r)}
 requireAll(require.context('./res/ext', false, /\.json$/))
 requireAll(require.context('./res/images', true, /\.jpg|\.png/))
+requireAll(require.context('./plugin_examples/newWebJugex', false))
 
 platformBrowserDynamic().bootstrapModule(MainModule)
\ No newline at end of file
diff --git a/src/main.module.ts b/src/main.module.ts
index b7c9432da..af9125ea6 100644
--- a/src/main.module.ts
+++ b/src/main.module.ts
@@ -4,7 +4,7 @@ import { UIModule } from "./ui/ui.module";
 import { LayoutModule } from "./layouts/layout.module";
 import { AtlasViewer } from "./atlasViewer/atlasViewer.component";
 import { StoreModule } from "@ngrx/store";
-import { viewerState, dataStore,spatialSearchState,uiState } from "./services/stateStore.service";
+import { viewerState, dataStore,spatialSearchState,uiState, ngViewerState } from "./services/stateStore.service";
 import { GetNamesPipe } from "./util/pipes/getNames.pipe";
 import { CommonModule } from "@angular/common";
 import { GetNamePipe } from "./util/pipes/getName.pipe";
@@ -39,7 +39,8 @@ import { NewViewerDisctinctViewToLayer } from "./util/pipes/newViewerDistinctVie
       viewerState ,
       dataStore ,
       spatialSearchState,
-      uiState
+      uiState,
+      ngViewerState
     })
   ],
   declarations : [
diff --git a/src/main.ts b/src/main.ts
index a95e92c71..add665e98 100644
--- a/src/main.ts
+++ b/src/main.ts
@@ -3,10 +3,9 @@ import 'reflect-metadata'
 import { platformBrowserDynamic } from '@angular/platform-browser-dynamic'
 import { MainModule } from './main.module';
 
-import 'chart.js/src/chart.js'
-
 const requireAll = (r:any) => {r.keys().forEach(r)}
 requireAll(require.context('./res/ext',false, /\.json$/))
 requireAll(require.context('./res/images',true,/\.jpg|\.png/))
+requireAll(require.context('./plugin_examples/newWebJugex', false))
 
 platformBrowserDynamic().bootstrapModule(MainModule)
\ No newline at end of file
diff --git a/src/res/ext/pmapsAggregatedData.json b/src/res/ext/pmapsAggregatedData.json
index 5cf684da0..228b93240 100644
--- a/src/res/ext/pmapsAggregatedData.json
+++ b/src/res/ext/pmapsAggregatedData.json
@@ -1 +1 @@
-[{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","regionName":[{"regionName":"Area hIP1 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP1 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1002/cne.20849","citation":"Choi, H.J., Zilles, K., Mohlberg, H., Schleicher, A., Fink, G.R., Armstrong, E., Amunts, K. 2006. Cytoarchitectonic identification and probabilistic mapping of two distinct areas within the anterior ventral bank of the human intraparietal sulcus. J Comp Neurol. 495(1):53-69"}],"associatedRegion":"Area hIP1 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","regionName":[{"regionName":"Area hIP2 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP2 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1002/cne.20849","citation":"Choi, H.J., Zilles, K., Mohlberg, H., Schleicher, A., Fink, G.R., Armstrong, E., Amunts, K. 2006. Cytoarchitectonic identification and probabilistic mapping of two distinct areas within the anterior ventral bank of the human intraparietal sulcus. J Comp Neurol. 495(1):53-69"}],"associatedRegion":"Area hIP2 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","regionName":[{"regionName":"Area hIP3 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP3 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area hIP3 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","regionName":[{"regionName":"Area PF (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PF.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PF (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PF (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","regionName":[{"regionName":"Area PFcm (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFcm.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFcm (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFcm (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","regionName":[{"regionName":"Area PFm (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFm.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFm (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFm (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","regionName":[{"regionName":"Area PFop (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFop.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFop (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFop (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","regionName":[{"regionName":"Area PFt (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFt.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFt (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFt (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","regionName":[{"regionName":"Area PGa (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PGa.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PGa (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PGa (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","regionName":[{"regionName":"Area PGp (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PGp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PGp (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"undefined","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PGp (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","regionName":[{"regionName":"Area OP1 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP1 (POperc)","description":"","publications":[{"doi":"undefined","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"undefined","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP1 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","regionName":[{"regionName":"Area OP2 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP2 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"undefined","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP2 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","regionName":[{"regionName":"Area OP3 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP3 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"undefined","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP3 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","regionName":[{"regionName":"Area OP4 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP4 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"undefined","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP4 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","regionName":[{"regionName":"Area 1 (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 1 (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"undefined","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 1 (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","regionName":[{"regionName":"Area 2 (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 2 (PostCS)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2001.0858","citation":"Grefkes, C., Geyer, S., Schormann, T., Roland, P., Zilles, K. 2001. Human somatosensory area 2: observer-independent cytoarchitectonic mapping, interindividual variability, and population map. Neuroimage. 14(3):617-31"}],"associatedRegion":"Area 2 (PostCS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","regionName":[{"regionName":"Area 3a (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_3a.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 3a (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"undefined","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 3a (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","regionName":[{"regionName":"Area 3b (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_3b.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 3b (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"undefined","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 3b (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","regionName":[{"regionName":"Area 5Ci (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5Ci.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5Ci (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 5Ci (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","regionName":[{"regionName":"Area 5L (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5L.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5L (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57 "}],"associatedRegion":"Area 5L (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","regionName":[{"regionName":"Area 5M (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5M.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5M (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 5M (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","regionName":[{"regionName":"Area 7A (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7A.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7A (SPL)","description":"","publications":[{"doi":"undefined","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7A (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","regionName":[{"regionName":"Area 7M (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7M.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7M (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7M (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","regionName":[{"regionName":"Area 7P (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7P.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7P (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7P (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","regionName":[{"regionName":"Area 7PC (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7PC.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7PC (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"undefined","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7PC (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","regionName":[{"regionName":"Area TE 1.0 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te10.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.0 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"undefined","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"},{"doi":"undefined","citation":" "}],"associatedRegion":"Area TE 1.0 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","regionName":[{"regionName":"Area TE 1.1 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te11.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.1 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"undefined","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"}],"associatedRegion":"Area TE 1.1 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","regionName":[{"regionName":"Area TE 1.2 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te12.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.2 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"undefined","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"}],"associatedRegion":"Area TE 1.2 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","regionName":[{"regionName":"Area TE 3 (STG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","name":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 3 (STG)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0029-1","citation":"Morosan, P., Schleicher, A., Amunts, K., Zilles, K. 2005. Multimodal architectonic mapping of human superior temporal gyrus. Anat Embryol (Berl). 210(5-6):401-6"},{"doi":"undefined","citation":"Schleicher, A., Amunts, K., Geyer, S., Morosan, P., Zilles, K. 1999. Observer-independent method for microstructural parcellation of cerebral cortex: A quantitative approach to cytoarchitectonics. Neuroimage. 9(1):165-77     "}],"associatedRegion":"Area TE 3 (STG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","regionName":[{"regionName":"Area FG1 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG1 (FusG) ","description":"","publications":[{"doi":"undefined","citation":"Caspers, J., Zilles, K., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Amunts, K. 2013. Cytoarchitectonical analysis and probabilistic mapping of two extrastriate areas of the human posterior fusiform gyrus. Brain Struct Funct. 218(2):511-26   "}],"associatedRegion":"Area FG1 (FusG) ","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","regionName":[{"regionName":"Area FG2 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG2 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0411-8","citation":"Caspers, J., Zilles, K., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Amunts, K. 2013. Cytoarchitectonical analysis and probabilistic mapping of two extrastriate areas of the human posterior fusiform gyrus. Brain Struct Funct. 218(2):511-26   "}],"associatedRegion":"Area FG2 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","regionName":[{"regionName":"Area FG3 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG3 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhv225","citation":"Lorenz, S., Weiner, K.S., Caspers, J., Mohlberg, H., Schleicher, A., Bludau, S., Eickhoff, S.B., Grill-Spector, K., Zilles, K., Amunts, K. 2017. Two New Cytoarchitectonic Areas on the Human Mid-Fusiform Gyrus. Cereb Cortex. 27(1):373-385"}],"associatedRegion":"Area FG3 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","regionName":[{"regionName":"Area FG4 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG4 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhv225","citation":"Lorenz, S., Weiner, K.S., Caspers, J., Mohlberg, H., Schleicher, A., Bludau, S., Eickhoff, S.B., Grill-Spector, K., Zilles, K., Amunts, K. 2017. Two New Cytoarchitectonic Areas on the Human Mid-Fusiform Gyrus. Cereb Cortex. 27(1):373-385"}],"associatedRegion":"Area FG4 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","regionName":[{"regionName":"Area 44 (IFG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","name":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Broca_44.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 44 (IFG)","description":"","publications":[{"doi":"undefined","citation":"Amunts, K., Schleicher, A., Bürgel, U., Mohlberg, H., Uylings, H.B., Zilles, K. 1999. Broca's region revisited: cytoarchitecture and intersubject variability. J Comp Neurol. 412(2):319-41"},{"doi":"undefined","citation":"Amunts, K., Weiss, P.H., Mohlberg, H., Pieperhoff, P., Eickhoff, S., Gurd, J.M., Marshall, J.C., Shah, N.J., Fink, G.R., Zilles, K. 2004. Analysis of neural mechanisms underlying verbal fluency in cytoarchitectonically defined stereotaxic space--the roles of Brodmann areas 44 and 45. Neuroimage. 22(1):42-56"}],"associatedRegion":"Area 44 (IFG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","regionName":[{"regionName":"Area 45 (IFG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","name":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Broca_45.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 45 (IFG)","description":"","publications":[{"doi":"undefined","citation":"Amunts, K., Schleicher, A., Bürgel, U., Mohlberg, H., Uylings, H.B., Zilles, K. 1999. Broca's region revisited: cytoarchitecture and intersubject variability. J Comp Neurol. 412(2):319-41"},{"doi":"undefined","citation":"Amunts, K., Weiss, P.H., Mohlberg, H., Pieperhoff, P., Eickhoff, S., Gurd, J.M., Marshall, J.C., Shah, N.J., Fink, G.R., Zilles, K. 2004. Analysis of neural mechanisms underlying verbal fluency in cytoarchitectonically defined stereotaxic space--the roles of Brodmann areas 44 and 45. Neuroimage. 22(1):42-56"}],"associatedRegion":"Area 45 (IFG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","regionName":[{"regionName":"Area Fp1 (Fpole)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","name":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/FrontalPole_Fp1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fp1 (Fpole)","description":"","publications":[{"doi":"undefined","citation":"Bludau, S., Eickhoff, S.B., Mohlberg, H., Caspers, S., Laird, A.R., Fox, P.T., Schleicher, A., Zilles, K., Amunts, K. 2014. Cytoarchitecture, probability maps and functions of the human frontal pole. Neuroimage. 93 Pt 2:260-75"}],"associatedRegion":"Area Fp1 (Fpole)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","regionName":[{"regionName":"Area Fp2 (Fpole)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","name":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/FrontalPole_Fp2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fp2 (Fpole)","description":"","publications":[{"doi":"undefined","citation":"Bludau, S., Eickhoff, S.B., Mohlberg, H., Caspers, S., Laird, A.R., Fox, P.T., Schleicher, A., Zilles, K., Amunts, K. 2014. Cytoarchitecture, probability maps and functions of the human frontal pole. Neuroimage. 93 Pt 2:260-75"}],"associatedRegion":"Area Fp2 (Fpole)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","regionName":[{"regionName":"Area 4a (PreCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","name":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Motor_4a.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 4a (PreCG)","description":"","publications":[{"doi":"https://doi.org/10.1038/382805a0","citation":"Geyer, S., Ledberg, A., Schleicher, A., Kinomura, S., Schormann, T., Bürgel, U., Klingberg, T., Larsson, J., Zilles, K., Roland, PE. 1996. Two different areas within the primary motor cortex of man. Nature. 382(6594):805-7"}],"associatedRegion":"Area 4a (PreCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","regionName":[{"regionName":"Area 4p (PreCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","name":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Motor_4p.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 4p (PreCG)","description":"","publications":[{"doi":"https://doi.org/10.1038/382805a0","citation":"Geyer, S., Ledberg, A., Schleicher, A., Kinomura, S., Schormann, T., Bürgel, U., Klingberg, T., Larsson, J., Zilles, K., Roland, PE. 1996. Two different areas within the primary motor cortex of man. Nature. 382(6594):805-7"}],"associatedRegion":"Area 4p (PreCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","regionName":[{"regionName":"Area Fo1 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo1 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo1 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","regionName":[{"regionName":"Area Fo2 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo2 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo2 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","regionName":[{"regionName":"Area Fo3 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo3 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo3 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","regionName":[{"regionName":"Area 33 (ACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","name":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_33.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 33 (ACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area 33 (ACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","regionName":[{"regionName":"Area 25 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_25.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 25 (sACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area 25 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","regionName":[{"regionName":"Area s24 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_s24.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area s24 (sACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area s24 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","regionName":[{"regionName":"Area s32 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_s32.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area s32 (sACC)","description":"","publications":[{"doi":"undefined","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area s32 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","regionName":[{"regionName":"CA1 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA1 (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA1 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","regionName":[{"regionName":"CA2 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA2 (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA2 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","regionName":[{"regionName":"CA3 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA3 (Hippocampus)","description":"","publications":[{"doi":"undefined","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA3 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","regionName":[{"regionName":"DG (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_DG.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"DG (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"DG (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","regionName":[{"regionName":"Entorhinal Cortex","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","name":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_EC.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Entorhinal Cortex","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"Entorhinal Cortex","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","regionName":[{"regionName":"HATA (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_HATA.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"HATA (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"HATA (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","regionName":[{"regionName":"Subc (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_Subc.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Subc (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"Subc (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","regionName":[{"regionName":"Area Id1 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Id1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Id1 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Id1 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","regionName":[{"regionName":"Area Ig1 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Ig1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Ig1 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Ig1 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","regionName":[{"regionName":"Area Ig2 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Ig2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Ig2 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Ig2 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","regionName":[{"regionName":"Area hOc1 (V1, 17, CalcS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","name":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc1 (V1, 17, CalcS)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0516","citation":"Amunts, K., Malikovic, A., Mohlberg, H., Schormann, T., Zilles, K. 2000. Brodmann's areas 17 and 18 brought into stereotaxic space-where and how variable? Neuroimage. 11(1):66-84"}],"associatedRegion":"Area hOc1 (V1, 17, CalcS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","regionName":[{"regionName":"Area hOc2 (V2, 18)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","name":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc2 (V2, 18)","description":"","publications":[{"doi":"undefined","citation":"Amunts, K., Malikovic, A., Mohlberg, H., Schormann, T., Zilles, K. 2000. Brodmann's areas 17 and 18 brought into stereotaxic space-where and how variable? Neuroimage. 11(1):66-84"}],"associatedRegion":"Area hOc2 (V2, 18)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","regionName":[{"regionName":"Area hOc3d (Cuneus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","name":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc3d.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc3d (Cuneus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0390-9","citation":"Kujovic, M., Zilles, K., Malikovic, A., Schleicher, A., Mohlberg, H., Rottschy, C., Eickhoff, S.B., Amunts, K. 2013. Cytoarchitectonic mapping of the human dorsal extrastriate cortex. Brain Struct Funct. 218(1):157-72"}],"associatedRegion":"Area hOc3d (Cuneus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","regionName":[{"regionName":"Area hOc4d (Cuneus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4d.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4d (Cuneus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0390-9","citation":"Kujovic, M., Zilles, K., Malikovic, A., Schleicher, A., Mohlberg, H., Rottschy, C., Eickhoff, S.B., Amunts, K. 2013. Cytoarchitectonic mapping of the human dorsal extrastriate cortex. Brain Struct Funct. 218(1):157-72"}],"associatedRegion":"Area hOc4d (Cuneus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","regionName":[{"regionName":"Area hOc3v (LingG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","name":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc3v.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc3v (LingG)","description":"","publications":[{"doi":"https://doi.org/10.1002/hbm.20348","citation":"Rottschy, C., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Kujovic, M., Zilles, K., Amunts, K. 2007. Ventral visual cortex in humans: cytoarchitectonic mapping of two extrastriate areas. Hum Brain Mapp. 28(10):1045-59"}],"associatedRegion":"Area hOc3v (LingG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","regionName":[{"regionName":"Area hOc4v (LingG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4v.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4v (LingG)","description":"","publications":[{"doi":"https://doi.org/10.1002/hbm.20348","citation":"Rottschy, C., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Kujovic, M., Zilles, K., Amunts, K. 2007. Ventral visual cortex in humans: cytoarchitectonic mapping of two extrastriate areas. Hum Brain Mapp. 28(10):1045-59"}],"associatedRegion":"Area hOc4v (LingG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","regionName":[{"regionName":"Area hOc4la (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4la.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4la (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-015-1009-8","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Kujovic, M., Palomero-Gallagher, N., Eickhoff, S.B., Zilles, K. 2016. Cytoarchitecture of the human lateral occipital cortex: mapping of two extrastriate areas hOc4la and hOc4lp. Brain Struct Funct. 221(4):1877-97 "}],"associatedRegion":"Area hOc4la (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","regionName":[{"regionName":"Area hOc4lp (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4lp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4lp (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-015-1009-8","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Kujovic, M., Palomero-Gallagher, N., Eickhoff, S.B., Zilles, K. 2016. Cytoarchitecture of the human lateral occipital cortex: mapping of two extrastriate areas hOc4la and hOc4lp. Brain Struct Funct. 221(4):1877-97 "}],"associatedRegion":"Area hOc4lp (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","regionName":[{"regionName":"Area hOc5 (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc5.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc5 (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhj181","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Eickhoff, S.B., Wilms, M., Palomero-Gallagher, N., Armstrong, E., Zilles, K. 2007. Cytoarchitectonic analysis of the human extrastriate cortex in the region of V5/MT+: a probabilistic, stereotaxic map of area hOc5. Cereb Cortex. 17(3):562-74"}],"associatedRegion":"Area hOc5 (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","regionName":[{"regionName":"AStr (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_AStr.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"AStr (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"AStr (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","regionName":[{"regionName":"CM (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_CM.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CM (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CM (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","regionName":[{"regionName":"LB (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_LB.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"LB (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"LB (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","regionName":[{"regionName":"SF (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_SF.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"SF (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"SF (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","regionName":[{"regionName":"Ch 1-3 (Basal Forebrain)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","name":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Bforebrain_123.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ch 1-3 (Basal Forebrain)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2008.05.055","citation":"Zaborszky, L., Hoemke, L., Mohlberg, H., Schleicher, A., Amunts, K., Zilles, K. 2008. Stereotaxic probabilistic maps of the magnocellular cell groups in human basal forebrain. Neuroimage. 42(3):1127-41"}],"associatedRegion":"Ch 1-3 (Basal Forebrain)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","regionName":[{"regionName":"Ch 4 (Basal Forebrain)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","name":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Bforebrain_4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ch 4 (Basal Forebrain)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2008.05.055","citation":"Zaborszky, L., Hoemke, L., Mohlberg, H., Schleicher, A., Amunts, K., Zilles, K. 2008. Stereotaxic probabilistic maps of the magnocellular cell groups in human basal forebrain. Neuroimage. 42(3):1127-41"}],"associatedRegion":"Ch 4 (Basal Forebrain)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","regionName":[{"regionName":"Dorsal Dentate Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ndentd.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Dorsal Dentate Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Dorsal Dentate Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","regionName":[{"regionName":"Ventral Dentate Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ndentv.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ventral Dentate Nucleus (Cerebellum)","description":"","publications":[{"doi":"undefined","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Ventral Dentate Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","regionName":[{"regionName":"Fastigial Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Nfast.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Fastigial Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Fastigial Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","regionName":[{"regionName":"emboliform nucleus, globose nucleus","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","name":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ninterp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Interposed Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Interposed Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}}]
\ No newline at end of file
+[{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","regionName":[{"regionName":"Area hIP1 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP1 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP1 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1002/cne.20849","citation":"Choi, H.J., Zilles, K., Mohlberg, H., Schleicher, A., Fink, G.R., Armstrong, E., Amunts, K. 2006. Cytoarchitectonic identification and probabilistic mapping of two distinct areas within the anterior ventral bank of the human intraparietal sulcus. J Comp Neurol. 495(1):53-69"}],"associatedRegion":"Area hIP1 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","regionName":[{"regionName":"Area hIP2 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP2 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP2 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1002/cne.20849","citation":"Choi, H.J., Zilles, K., Mohlberg, H., Schleicher, A., Fink, G.R., Armstrong, E., Amunts, K. 2006. Cytoarchitectonic identification and probabilistic mapping of two distinct areas within the anterior ventral bank of the human intraparietal sulcus. J Comp Neurol. 495(1):53-69"}],"associatedRegion":"Area hIP2 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","regionName":[{"regionName":"Area hIP3 (IPS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","name":"Cytoarchitectonic Probabilistic Map for Area hIP3 (IPS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/AIPS_IP3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hIP3 (IPS)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area hIP3 (IPS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","regionName":[{"regionName":"Area PF (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PF (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PF.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PF (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PF (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","regionName":[{"regionName":"Area PFcm (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFcm (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFcm.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFcm (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFcm (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","regionName":[{"regionName":"Area PFm (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFm (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFm.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFm (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFm (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","regionName":[{"regionName":"Area PFop (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFop (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFop.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFop (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFop (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","regionName":[{"regionName":"Area PFt (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PFt (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PFt.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PFt (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PFt (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","regionName":[{"regionName":"Area PGa (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PGa (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PGa.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PGa (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PGa (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","regionName":[{"regionName":"Area PGp (IPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","name":"Cytoarchitectonic Probabilistic Map for Area PGp (IPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/IPL_PGp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area PGp (IPL)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2006.06.054","citation":"Caspers, S., Geyer, S., Schleicher, A., Mohlberg, H., Amunts, K., Zilles, K. 2006. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. Neuroimage. 33(2):430-48 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-008-0195-z","citation":"Caspers, S., Eickhoff, S.B., Geyer, S., Scheperjans, F., Mohlberg, H., Zilles, K., Amunts, K. 2008. The human inferior parietal lobule in stereotaxic space. Brain Struct Funct. 212(6):481-95"}],"associatedRegion":"Area PGp (IPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","regionName":[{"regionName":"Area OP1 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP1 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP1 (POperc)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhi106","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP1 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","regionName":[{"regionName":"Area OP2 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP2 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP2 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhi106","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP2 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","regionName":[{"regionName":"Area OP3 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP3 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP3 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhi106","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP3 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","regionName":[{"regionName":"Area OP4 (POperc)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","name":"Cytoarchitectonic Probabilistic Map for Area OP4 (POperc)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Operculum_OP4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area OP4 (POperc)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhi105","citation":"Eickhoff, S.B., Schleicher, A., Zilles, K., Amunts, K. 2006. The human parietal operculum. I. Cytoarchitectonic mapping of subdivisions. Cereb Cortex. 16(2):254-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhi106","citation":"Eickhoff, S.B., Amunts, K., Mohlberg, H., Zilles, K. 2006. The human parietal operculum. II. Stereotaxic maps and correlation with functional imaging results. Cereb Cortex. 16(2):268-79"}],"associatedRegion":"Area OP4 (POperc)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","regionName":[{"regionName":"Area 1 (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 1 (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 1 (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0548","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 1 (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","regionName":[{"regionName":"Area 2 (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 2 (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 2 (PostCS)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2001.0858","citation":"Grefkes, C., Geyer, S., Schormann, T., Roland, P., Zilles, K. 2001. Human somatosensory area 2: observer-independent cytoarchitectonic mapping, interindividual variability, and population map. Neuroimage. 14(3):617-31"}],"associatedRegion":"Area 2 (PostCS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","regionName":[{"regionName":"Area 3a (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 3a (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_3a.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 3a (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0548","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 3a (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","regionName":[{"regionName":"Area 3b (PostCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","name":"Cytoarchitectonic Probabilistic Map for Area 3b (PostCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/PSC_3b.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 3b (PostCG)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0440","citation":"Geyer, S., Schleicher, A., Zilles, K. 1999. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Neuroimage. 10(1):63-83 "},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0548","citation":"Geyer, S., Schormann, T., Mohlberg, H., Zilles, K. 2000. Areas 3a, 3b, and 1 of human primary somatosensory cortex. Part 2. Spatial normalization to standard anatomical space. Neuroimage. 11(6 Pt 1):684-96"}],"associatedRegion":"Area 3b (PostCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","regionName":[{"regionName":"Area 5Ci (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5Ci (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5Ci.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5Ci (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 5Ci (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","regionName":[{"regionName":"Area 5L (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5L (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5L.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5L (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57 "}],"associatedRegion":"Area 5L (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","regionName":[{"regionName":"Area 5M (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 5M (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_5M.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 5M (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 5M (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","regionName":[{"regionName":"Area 7A (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7A (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7A.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7A (SPL)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7A (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","regionName":[{"regionName":"Area 7M (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7M (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7M.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7M (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7M (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","regionName":[{"regionName":"Area 7P (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7P (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7P.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7P (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7P (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","regionName":[{"regionName":"Area 7PC (SPL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","name":"Cytoarchitectonic Probabilistic Map for Area 7PC (SPL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/SPL_7PC.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 7PC (SPL)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhm116","citation":"Scheperjans, F., Hermann, K., Eickhoff, S.B., Amunts, K., Schleicher, A., Zilles, K. 2008. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex. 18(4):846-67"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093%2Fcercor%2Fbhm241","citation":"Scheperjans, F., Eickhoff, S.B., Hömke, L., Mohlberg, H., Hermann, K., Amunts, K., Zilles, K. 2008. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex. 18(9):2141-57"}],"associatedRegion":"Area 7PC (SPL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","regionName":[{"regionName":"Area TE 1.0 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.0 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te10.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.0 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0714","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"}],"associatedRegion":"Area TE 1.0 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","regionName":[{"regionName":"Area TE 1.1 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.1 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te11.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.1 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0714","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"}],"associatedRegion":"Area TE 1.1 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","regionName":[{"regionName":"Area TE 1.2 (HESCHL)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","name":"Cytoarchitectonic Probabilistic Map for Area TE 1.2 (HESCHL)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te12.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 1.2 (HESCHL)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.2000.0715","citation":"Morosan, P., Rademacher, J., Schleicher, A., Amunts, K., Schormann, T., Zilles, K. 2001. Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage. 13(4):684-701"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.2000.0714","citation":"Rademacher, J., Morosan, P., Schormann, T., Schleicher, A., Werner, C., Freund, H.J., Zilles, K. 2001. Probabilistic mapping and volume measurement of human primary auditory cortex. Neuroimage. 13(4):669-83"}],"associatedRegion":"Area TE 1.2 (HESCHL)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","regionName":[{"regionName":"Area TE 3 (STG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","name":"Cytoarchitectonic Probabilistic Map for Area TE 3 (STG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Auditory_Te3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area TE 3 (STG)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0029-1","citation":"Morosan, P., Schleicher, A., Amunts, K., Zilles, K. 2005. Multimodal architectonic mapping of human superior temporal gyrus. Anat Embryol (Berl). 210(5-6):401-6"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1006%2Fnimg.1998.0385","citation":"Schleicher, A., Amunts, K., Geyer, S., Morosan, P., Zilles, K. 1999. Observer-independent method for microstructural parcellation of cerebral cortex: A quantitative approach to cytoarchitectonics. Neuroimage. 9(1):165-77     "}],"associatedRegion":"Area TE 3 (STG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","regionName":[{"regionName":"Area FG1 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG1 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG1 (FusG) ","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1007%2Fs00429-012-0411-8","citation":"Caspers, J., Zilles, K., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Amunts, K. 2013. Cytoarchitectonical analysis and probabilistic mapping of two extrastriate areas of the human posterior fusiform gyrus. Brain Struct Funct. 218(2):511-26   "}],"associatedRegion":"Area FG1 (FusG) ","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","regionName":[{"regionName":"Area FG2 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG2 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG2 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0411-8","citation":"Caspers, J., Zilles, K., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Amunts, K. 2013. Cytoarchitectonical analysis and probabilistic mapping of two extrastriate areas of the human posterior fusiform gyrus. Brain Struct Funct. 218(2):511-26   "}],"associatedRegion":"Area FG2 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","regionName":[{"regionName":"Area FG3 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG3 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG3 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhv225","citation":"Lorenz, S., Weiner, K.S., Caspers, J., Mohlberg, H., Schleicher, A., Bludau, S., Eickhoff, S.B., Grill-Spector, K., Zilles, K., Amunts, K. 2017. Two New Cytoarchitectonic Areas on the Human Mid-Fusiform Gyrus. Cereb Cortex. 27(1):373-385"}],"associatedRegion":"Area FG3 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","regionName":[{"regionName":"Area FG4 (FusG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","name":"Cytoarchitectonic Probabilistic Map for Area FG4 (FusG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_FG4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area FG4 (FusG)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhv225","citation":"Lorenz, S., Weiner, K.S., Caspers, J., Mohlberg, H., Schleicher, A., Bludau, S., Eickhoff, S.B., Grill-Spector, K., Zilles, K., Amunts, K. 2017. Two New Cytoarchitectonic Areas on the Human Mid-Fusiform Gyrus. Cereb Cortex. 27(1):373-385"}],"associatedRegion":"Area FG4 (FusG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","regionName":[{"regionName":"Area 44 (IFG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","name":"Cytoarchitectonic Probabilistic Map for Area 44 (IFG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Broca_44.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 44 (IFG)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Broca%27s+region+revisited%3A+Cytoarchitecture+and+intersubject+variability","citation":"Amunts, K., Schleicher, A., Bürgel, U., Mohlberg, H., Uylings, H.B., Zilles, K. 1999. Broca's region revisited: cytoarchitecture and intersubject variability. J Comp Neurol. 412(2):319-41"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Analysis+of+neural+mechanisms+underlying+verbal+fluency+in+cytoarchitectonically+defined+stereotaxic+space%E2%80%94The+roles+of+Brodmann+areas+44+and+45","citation":"Amunts, K., Weiss, P.H., Mohlberg, H., Pieperhoff, P., Eickhoff, S., Gurd, J.M., Marshall, J.C., Shah, N.J., Fink, G.R., Zilles, K. 2004. Analysis of neural mechanisms underlying verbal fluency in cytoarchitectonically defined stereotaxic space--the roles of Brodmann areas 44 and 45. Neuroimage. 22(1):42-56"}],"associatedRegion":"Area 44 (IFG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","regionName":[{"regionName":"Area 45 (IFG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","name":"Cytoarchitectonic Probabilistic Map for Area 45 (IFG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Broca_45.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 45 (IFG)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Broca%27s+region+revisited%3A+Cytoarchitecture+and+intersubject+variability","citation":"Amunts, K., Schleicher, A., Bürgel, U., Mohlberg, H., Uylings, H.B., Zilles, K. 1999. Broca's region revisited: cytoarchitecture and intersubject variability. J Comp Neurol. 412(2):319-41"},{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Analysis+of+neural+mechanisms+underlying+verbal+fluency+in+cytoarchitectonically+defined+stereotaxic+space%E2%80%94The+roles+of+Brodmann+areas+44+and+45","citation":"Amunts, K., Weiss, P.H., Mohlberg, H., Pieperhoff, P., Eickhoff, S., Gurd, J.M., Marshall, J.C., Shah, N.J., Fink, G.R., Zilles, K. 2004. Analysis of neural mechanisms underlying verbal fluency in cytoarchitectonically defined stereotaxic space--the roles of Brodmann areas 44 and 45. Neuroimage. 22(1):42-56"}],"associatedRegion":"Area 45 (IFG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","regionName":[{"regionName":"Area Fp1 (Fpole)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","name":"Cytoarchitectonic Probabilistic Map for Area Fp1 (Fpole)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/FrontalPole_Fp1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fp1 (Fpole)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Cytoarchitecture%2C+probability+maps+and+functions+of+the+human+frontal+pole","citation":"Bludau, S., Eickhoff, S.B., Mohlberg, H., Caspers, S., Laird, A.R., Fox, P.T., Schleicher, A., Zilles, K., Amunts, K. 2014. Cytoarchitecture, probability maps and functions of the human frontal pole. Neuroimage. 93 Pt 2:260-75"}],"associatedRegion":"Area Fp1 (Fpole)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","regionName":[{"regionName":"Area Fp2 (Fpole)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","name":"Cytoarchitectonic Probabilistic Map for Area Fp2 (Fpole)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/FrontalPole_Fp2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fp2 (Fpole)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Cytoarchitecture%2C+probability+maps+and+functions+of+the+human+frontal+pole","citation":"Bludau, S., Eickhoff, S.B., Mohlberg, H., Caspers, S., Laird, A.R., Fox, P.T., Schleicher, A., Zilles, K., Amunts, K. 2014. Cytoarchitecture, probability maps and functions of the human frontal pole. Neuroimage. 93 Pt 2:260-75"}],"associatedRegion":"Area Fp2 (Fpole)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","regionName":[{"regionName":"Area 4a (PreCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","name":"Cytoarchitectonic Probabilistic Map for Area 4a (PreCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Motor_4a.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 4a (PreCG)","description":"","publications":[{"doi":"https://doi.org/10.1038/382805a0","citation":"Geyer, S., Ledberg, A., Schleicher, A., Kinomura, S., Schormann, T., Bürgel, U., Klingberg, T., Larsson, J., Zilles, K., Roland, PE. 1996. Two different areas within the primary motor cortex of man. Nature. 382(6594):805-7"}],"associatedRegion":"Area 4a (PreCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","regionName":[{"regionName":"Area 4p (PreCG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","name":"Cytoarchitectonic Probabilistic Map for Area 4p (PreCG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Motor_4p.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 4p (PreCG)","description":"","publications":[{"doi":"https://doi.org/10.1038/382805a0","citation":"Geyer, S., Ledberg, A., Schleicher, A., Kinomura, S., Schormann, T., Bürgel, U., Klingberg, T., Larsson, J., Zilles, K., Roland, PE. 1996. Two different areas within the primary motor cortex of man. Nature. 382(6594):805-7"}],"associatedRegion":"Area 4p (PreCG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","regionName":[{"regionName":"Area Fo1 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo1 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo1 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo1 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","regionName":[{"regionName":"Area Fo2 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo2 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo2 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo2 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","regionName":[{"regionName":"Area Fo3 (OFC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","name":"Cytoarchitectonic Probabilistic Map for Area Fo3 (OFC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/OFC_Fo3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Fo3 (OFC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Henssen, A., Zilles, K., Palomero-Gallagher, N., Schleicher, A., Mohlberg, H., Gerboga, F., Eickhoff, S.B., Bludau, S., Amunts, K. 2016. Cytoarchitecture and probability maps of the human medial orbitofrontal cortex. Cortex. 75:87-112"}],"associatedRegion":"Area Fo3 (OFC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","regionName":[{"regionName":"Area 33 (ACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","name":"Cytoarchitectonic Probabilistic Map for Area 33 (ACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_33.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 33 (ACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area 33 (ACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","regionName":[{"regionName":"Area 25 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area 25 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_25.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area 25 (sACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area 25 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","regionName":[{"regionName":"Area s24 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area s24 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_s24.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area s24 (sACC)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.cortex.2015.11.006","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area s24 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","regionName":[{"regionName":"Area s32 (sACC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","name":"Cytoarchitectonic Probabilistic Map for Area s32 (sACC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cingulum_s32.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area s32 (sACC)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Functional+organization+of+human+subgenual+cortical+areas%3A+Relationship+between+architectonical+segregation+and+connectional+heterogeneity","citation":"Palomero-Gallagher, N., Eickhoff, S.B., Hoffstaedter, F., Schleicher, A., Mohlberg, H., Vogt, B.A., Amunts, K., Zilles, K. 2015. Functional organization of human subgenual cortical areas: Relationship between architectonical segregation and connectional heterogeneity. Neuroimage. 115:177-90 "}],"associatedRegion":"Area s32 (sACC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","regionName":[{"regionName":"CA1 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA1 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA1 (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA1 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","regionName":[{"regionName":"CA2 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA2 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA2 (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA2 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","regionName":[{"regionName":"CA3 (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for CA3 (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_CA3.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CA3 (Hippocampus)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Cytoarchitectonic+mapping+of+the+human+amygdala%2C+hippocampal+region+and+entorhinal+cortex%3A+intersubject+variability+and+probability+maps","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CA3 (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","regionName":[{"regionName":"DG (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for DG (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_DG.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"DG (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"DG (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","regionName":[{"regionName":"Entorhinal Cortex","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","name":"Cytoarchitectonic Probabilistic Map for Entorhinal Cortex","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_EC.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Entorhinal Cortex","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"Entorhinal Cortex","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","regionName":[{"regionName":"HATA (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for HATA (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_HATA.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"HATA (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"HATA (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","regionName":[{"regionName":"Subc (Hippocampus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","name":"Cytoarchitectonic Probabilistic Map for Subc (Hippocampus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Hippocampus_Subc.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Subc (Hippocampus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"Subc (Hippocampus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","regionName":[{"regionName":"Area Id1 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Id1 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Id1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Id1 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Id1 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","regionName":[{"regionName":"Area Ig1 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Ig1 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Ig1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Ig1 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Ig1 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","regionName":[{"regionName":"Area Ig2 (Insula)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","name":"Cytoarchitectonic Probabilistic Map for Area Ig2 (Insula)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Insula_Ig2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area Ig2 (Insula)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhp208","citation":"Kurth, F., Eickhoff, S.B., Schleicher, A., Hoemke, L., Zilles, K., Amunts, K. 2010. Cytoarchitecture and probabilistic maps of the human posterior insular cortex. Cereb Cortex. 20(6):1448-61"}],"associatedRegion":"Area Ig2 (Insula)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","regionName":[{"regionName":"Area hOc1 (V1, 17, CalcS)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","name":"Cytoarchitectonic Probabilistic Map for Area hOc1 (V1, 17, CalcS)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc1.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc1 (V1, 17, CalcS)","description":"","publications":[{"doi":"https://doi.org/10.1006/nimg.1999.0516","citation":"Amunts, K., Malikovic, A., Mohlberg, H., Schormann, T., Zilles, K. 2000. Brodmann's areas 17 and 18 brought into stereotaxic space-where and how variable? Neuroimage. 11(1):66-84"}],"associatedRegion":"Area hOc1 (V1, 17, CalcS)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","regionName":[{"regionName":"Area hOc2 (V2, 18)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","name":"Cytoarchitectonic Probabilistic Map for Area hOc2 (V2, 18)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc2.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc2 (V2, 18)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/10686118","citation":"Amunts, K., Malikovic, A., Mohlberg, H., Schormann, T., Zilles, K. 2000. Brodmann's areas 17 and 18 brought into stereotaxic space-where and how variable? Neuroimage. 11(1):66-84"}],"associatedRegion":"Area hOc2 (V2, 18)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","regionName":[{"regionName":"Area hOc3d (Cuneus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","name":"Cytoarchitectonic Probabilistic Map for Area hOc3d (Cuneus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc3d.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc3d (Cuneus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0390-9","citation":"Kujovic, M., Zilles, K., Malikovic, A., Schleicher, A., Mohlberg, H., Rottschy, C., Eickhoff, S.B., Amunts, K. 2013. Cytoarchitectonic mapping of the human dorsal extrastriate cortex. Brain Struct Funct. 218(1):157-72"}],"associatedRegion":"Area hOc3d (Cuneus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","regionName":[{"regionName":"Area hOc4d (Cuneus)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4d (Cuneus)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4d.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4d (Cuneus)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-012-0390-9","citation":"Kujovic, M., Zilles, K., Malikovic, A., Schleicher, A., Mohlberg, H., Rottschy, C., Eickhoff, S.B., Amunts, K. 2013. Cytoarchitectonic mapping of the human dorsal extrastriate cortex. Brain Struct Funct. 218(1):157-72"}],"associatedRegion":"Area hOc4d (Cuneus)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","regionName":[{"regionName":"Area hOc3v (LingG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","name":"Cytoarchitectonic Probabilistic Map for Area hOc3v (LingG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc3v.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc3v (LingG)","description":"","publications":[{"doi":"https://doi.org/10.1002/hbm.20348","citation":"Rottschy, C., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Kujovic, M., Zilles, K., Amunts, K. 2007. Ventral visual cortex in humans: cytoarchitectonic mapping of two extrastriate areas. Hum Brain Mapp. 28(10):1045-59"}],"associatedRegion":"Area hOc3v (LingG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","regionName":[{"regionName":"Area hOc4v (LingG)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4v (LingG)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4v.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4v (LingG)","description":"","publications":[{"doi":"https://doi.org/10.1002/hbm.20348","citation":"Rottschy, C., Eickhoff, S.B., Schleicher, A., Mohlberg, H., Kujovic, M., Zilles, K., Amunts, K. 2007. Ventral visual cortex in humans: cytoarchitectonic mapping of two extrastriate areas. Hum Brain Mapp. 28(10):1045-59"}],"associatedRegion":"Area hOc4v (LingG)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","regionName":[{"regionName":"Area hOc4la (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4la (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4la.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4la (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-015-1009-8","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Kujovic, M., Palomero-Gallagher, N., Eickhoff, S.B., Zilles, K. 2016. Cytoarchitecture of the human lateral occipital cortex: mapping of two extrastriate areas hOc4la and hOc4lp. Brain Struct Funct. 221(4):1877-97 "}],"associatedRegion":"Area hOc4la (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","regionName":[{"regionName":"Area hOc4lp (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc4lp (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc4lp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc4lp (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-015-1009-8","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Kujovic, M., Palomero-Gallagher, N., Eickhoff, S.B., Zilles, K. 2016. Cytoarchitecture of the human lateral occipital cortex: mapping of two extrastriate areas hOc4la and hOc4lp. Brain Struct Funct. 221(4):1877-97 "}],"associatedRegion":"Area hOc4lp (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","regionName":[{"regionName":"Area hOc5 (LOC)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","name":"Cytoarchitectonic Probabilistic Map for Area hOc5 (LOC)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Visual_hOc5.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Area hOc5 (LOC)","description":"","publications":[{"doi":"https://doi.org/10.1093/cercor/bhj181","citation":"Malikovic, A., Amunts, K., Schleicher, A., Mohlberg, H., Eickhoff, S.B., Wilms, M., Palomero-Gallagher, N., Armstrong, E., Zilles, K. 2007. Cytoarchitectonic analysis of the human extrastriate cortex in the region of V5/MT+: a probabilistic, stereotaxic map of area hOc5. Cereb Cortex. 17(3):562-74"}],"associatedRegion":"Area hOc5 (LOC)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","regionName":[{"regionName":"AStr (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for AStr (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_AStr.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"AStr (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"AStr (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","regionName":[{"regionName":"CM (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for CM (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_CM.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"CM (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"CM (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","regionName":[{"regionName":"LB (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for LB (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_LB.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"LB (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"LB (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","regionName":[{"regionName":"SF (Amygdala)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","name":"Cytoarchitectonic Probabilistic Map for SF (Amygdala)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Amygdala_SF.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"SF (Amygdala)","description":"","publications":[{"doi":"https://doi.org/10.1007/s00429-005-0025-5","citation":"Amunts, K., Kedo, O., Kindler, M., Pieperhoff, P., Mohlberg, H., Shah, N.J., Habel, U., Schneider, F., Zilles, K. 2005. Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps. Anat Embryol (Berl). 210(5-6):343-52"}],"associatedRegion":"SF (Amygdala)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","regionName":[{"regionName":"Ch 1-3 (Basal Forebrain)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","name":"Cytoarchitectonic Probabilistic Map for Ch 1-3 (Basal Forebrain)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Bforebrain_123.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ch 1-3 (Basal Forebrain)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2008.05.055","citation":"Zaborszky, L., Hoemke, L., Mohlberg, H., Schleicher, A., Amunts, K., Zilles, K. 2008. Stereotaxic probabilistic maps of the magnocellular cell groups in human basal forebrain. Neuroimage. 42(3):1127-41"}],"associatedRegion":"Ch 1-3 (Basal Forebrain)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","regionName":[{"regionName":"Ch 4 (Basal Forebrain)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","name":"Cytoarchitectonic Probabilistic Map for Ch 4 (Basal Forebrain)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Bforebrain_4.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ch 4 (Basal Forebrain)","description":"","publications":[{"doi":"https://doi.org/10.1016/j.neuroimage.2008.05.055","citation":"Zaborszky, L., Hoemke, L., Mohlberg, H., Schleicher, A., Amunts, K., Zilles, K. 2008. Stereotaxic probabilistic maps of the magnocellular cell groups in human basal forebrain. Neuroimage. 42(3):1127-41"}],"associatedRegion":"Ch 4 (Basal Forebrain)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","regionName":[{"regionName":"Dorsal Dentate Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Dorsal Dentate Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ndentd.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Dorsal Dentate Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Dorsal Dentate Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","regionName":[{"regionName":"Ventral Dentate Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Ventral Dentate Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ndentv.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Ventral Dentate Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Cytoarchitectonic+mapping+of+the+human+brain+cerebellar+nuclei+in+stereotaxic+space+and+delineation+of+their+co-activation+patterns","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Ventral Dentate Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","regionName":[{"regionName":"Fastigial Nucleus (Cerebellum)","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","name":"Cytoarchitectonic Probabilistic Map for Fastigial Nucleus (Cerebellum)","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Nfast.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Fastigial Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Fastigial Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}},{"type":"Cytoarchitectonic Probabilistic Map","name":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","regionName":[{"regionName":"emboliform nucleus, globose nucleus","relationship":"equals"}],"files":[{"filename":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","name":"Cytoarchitectonic Probabilistic Map for emboliform nucleus, globose nucleus","mimetype":"application/nifti","url":"https://neuroglancer.humanbrainproject.org/precomputed/JuBrain/v2.2c/PMaps/Cerebellum_Ninterp.nii","properties":{}}],"targetParcellation":"JuBrain Cytoarchitectonic Atlas","properties":{"name":"Interposed Nucleus (Cerebellum)","description":"","publications":[{"doi":"https://doi.org/10.3389/fnana.2015.00054","citation":"Tellmann, S., Bludau, S., Eickhoff, S., Mohlberg, H., Minnerop, M., Amunts, K. 2015. Cytoarchitectonic mapping of the human brain cerebellar nuclei in stereotaxic space and delineation of their co-activation patterns. Front Neuroanat. 9:54."}],"associatedRegion":"Interposed Nucleus (Cerebellum)","associatedParcellation":"JuBrain Cytoarchitectonic Atlas","datasetInfo":"MNIColin27_PMap.json"}}]
\ No newline at end of file
diff --git a/src/services/stateStore.service.ts b/src/services/stateStore.service.ts
index 138fc5a26..0f49f1f49 100644
--- a/src/services/stateStore.service.ts
+++ b/src/services/stateStore.service.ts
@@ -76,7 +76,77 @@ export interface DataStateInterface{
   fetchedMetadataMap : Map<string,Map<string,{properties:Property}>>
 }
 
-export function uiState(state:UIStateInterface,action:UIAction){
+interface NgLayerInterface{
+  name : string
+  source : string
+  mixability : string // base | mixable | nonmixable
+  visible : boolean
+  shader? : string
+  transform? : any
+}
+
+export const ADD_NG_LAYER = 'ADD_NG_LAYER'
+export const REMOVE_NG_LAYER = 'REMOVE_NG_LAYER'
+export const SHOW_NG_LAYER = 'SHOW_NG_LAYER'
+export const HIDE_NG_LAYER = 'HIDE_NG_LAYER'
+
+export interface NgViewerStateInterface{
+  layers : NgLayerInterface[]
+}
+
+export interface NgViewerAction extends Action{
+  layer : NgLayerInterface
+}
+
+const mapLayer = (existingLayer:NgLayerInterface, incomingLayer:NgLayerInterface):NgLayerInterface => {
+  return incomingLayer.mixability === 'base'
+    ? existingLayer
+    : incomingLayer.mixability === 'mixable'
+      ? existingLayer.mixability === 'nonmixable'
+        ? Object.assign({}, existingLayer, {
+            visible : false
+          } as NgLayerInterface)
+        : existingLayer
+      /* incomingLayer.mixability === 'nonmixable' */
+      : existingLayer.mixability === 'base'
+        ? existingLayer
+        : Object.assign({}, existingLayer, {
+            visible : false
+          } as NgLayerInterface)
+}
+
+export function ngViewerState(prevState:NgViewerStateInterface = {layers:[]}, action:NgViewerAction):NgViewerStateInterface{
+  switch(action.type){
+    case ADD_NG_LAYER:
+      return Object.assign({}, prevState, {
+        layers : prevState.layers.map(l => mapLayer(l, action.layer)).concat(action.layer)
+      })
+    case REMOVE_NG_LAYER:
+      return Object.assign({}, prevState, {
+        layers : prevState.layers.filter(l => l.name !== action.layer.name)
+      } as NgViewerStateInterface)
+    case SHOW_NG_LAYER:
+      return Object.assign({}, prevState, {
+        layers : prevState.layers.map(l => l.name === action.layer.name
+          ? Object.assign({}, l, {
+              visible : true
+            } as NgLayerInterface)
+          : l)
+      })
+    case HIDE_NG_LAYER:
+      return Object.assign({}, prevState, {
+        layers : prevState.layers.map(l => l.name === action.layer.name
+          ? Object.assign({}, l, {
+              visible : false
+            } as NgLayerInterface)
+          : l)
+        })
+    default:
+      return prevState
+  }
+}
+
+export function uiState(state:UIStateInterface = {mouseOverSegment:null, focusedSidePanel:null, sidePanelOpen: false},action:UIAction){
   switch(action.type){
     case MOUSE_OVER_SEGMENT:
       return Object.assign({},state,{
diff --git a/src/ui/banner/banner.template.html b/src/ui/banner/banner.template.html
index 30bf77b38..4f891826b 100644
--- a/src/ui/banner/banner.template.html
+++ b/src/ui/banner/banner.template.html
@@ -38,8 +38,6 @@
       placeholder="Regions"/>
       
   </div>
-  <plugin-banner>
-  </plugin-banner>
 </div>
 
 <ng-template #searchRegionTemplate>
diff --git a/src/ui/databrowser/databrowser.component.ts b/src/ui/databrowser/databrowser.component.ts
index b6091d7e6..84f56fbd2 100644
--- a/src/ui/databrowser/databrowser.component.ts
+++ b/src/ui/databrowser/databrowser.component.ts
@@ -275,15 +275,27 @@ export class DataBrowserUI implements OnDestroy,OnInit{
     dedicatedView : dedicatedViewString
   })
 
+  dataWindowRegistry: Set<string> = new Set()
+
   handleTreeNodeClick(obj:{inputItem:any,node:TreeComponent},searchResult:any){
     
     const { properties } = searchResult
     obj.node.childrenExpanded = !obj.node.childrenExpanded
 
     if(obj.inputItem.mimetype){
+      if(this.dataWindowRegistry.has(obj.inputItem.name)){
+        /* already open, will not open again */
+        return 
+      }
+      /* not yet open, add the name to registry */
+      this.dataWindowRegistry.add(obj.inputItem.name)
+
       const component = this.fileViewerComponentFactory.create(this.injector)
       component.instance.searchResultFile = Object.assign({}, obj.inputItem, { datasetProperties : properties })
-      this.widgetServices.addNewWidget(component,{title:obj.inputItem.name,exitable:true,state:'floating'})
+      const compref = this.widgetServices.addNewWidget(component,{title:obj.inputItem.name,exitable:true,state:'floating'})
+
+      /* on destroy, removes name from registry */
+      compref.onDestroy(() => this.dataWindowRegistry.delete(obj.inputItem.name))
     }else{
       console.warn('the selected file has no mimetype defined')
     }
diff --git a/src/ui/databrowser/databrowser.style.css b/src/ui/databrowser/databrowser.style.css
index ef07a1d45..15640d08d 100644
--- a/src/ui/databrowser/databrowser.style.css
+++ b/src/ui/databrowser/databrowser.style.css
@@ -108,7 +108,7 @@ div[noSelectedRegion]
   padding: 1em 1em;
   font-size:2em;
   color: rgba(128,128,128,0.5);
-  max-height: 4em;
+  max-height: 6em;
 }
 
 :host-context([darktheme="true"]) div[noSelectedRegion]
diff --git a/src/ui/databrowser/databrowser.template.html b/src/ui/databrowser/databrowser.template.html
index fce052192..8216b8fef 100644
--- a/src/ui/databrowser/databrowser.template.html
+++ b/src/ui/databrowser/databrowser.template.html
@@ -111,7 +111,7 @@
           dataentry>
   
           <div heading>
-            {{ searchResult.name }}
+            {{ searchResult.type }}
           </div>
   
           <div body>
diff --git a/src/ui/layerbrowser/layerbrowser.component.ts b/src/ui/layerbrowser/layerbrowser.component.ts
index 40e430cdd..20a838992 100644
--- a/src/ui/layerbrowser/layerbrowser.component.ts
+++ b/src/ui/layerbrowser/layerbrowser.component.ts
@@ -10,4 +10,12 @@ import { AtlasViewerLayerInterface } from "../../util/pipes/newViewerDistinctVie
 
 export class LayerBrowser{
   @Input() layers : AtlasViewerLayerInterface[] = []
+
+  public muteClass(layer:AtlasViewerLayerInterface):boolean{
+    if(this.layers.length === 0)
+      return false
+    return layer.type === 'mixable'
+      ? this.layers.some(l => l.type === 'nonmixable')
+      : false
+  }
 }
\ No newline at end of file
diff --git a/src/ui/layerbrowser/layerbrowser.style.css b/src/ui/layerbrowser/layerbrowser.style.css
index 57053b951..4c2298879 100644
--- a/src/ui/layerbrowser/layerbrowser.style.css
+++ b/src/ui/layerbrowser/layerbrowser.style.css
@@ -17,4 +17,10 @@ div[body]
 {
   padding: 0.1em 1em;
   background-color:rgba(0, 0, 0, 0.1);
+}
+
+.muted
+{
+  text-decoration: line-through;
+  opacity : 0.5;
 }
\ No newline at end of file
diff --git a/src/ui/layerbrowser/layerbrowser.template.html b/src/ui/layerbrowser/layerbrowser.template.html
index 040586be9..d98b3f89d 100644
--- a/src/ui/layerbrowser/layerbrowser.template.html
+++ b/src/ui/layerbrowser/layerbrowser.template.html
@@ -1,5 +1,9 @@
 <div container>
-  <panel-component class = "layerContainer" *ngFor = "let layer of layers">
+  <panel-component
+    [ngClass] = "{'muted' : muteClass(layer)}"
+    class = "layerContainer"
+    *ngFor = "let layer of layers">
+    
     <div heading>
       {{ layer.name }}
     </div>
diff --git a/src/ui/nehubaContainer/nehubaContainer.component.ts b/src/ui/nehubaContainer/nehubaContainer.component.ts
index 5b96321a6..fd7902ca5 100644
--- a/src/ui/nehubaContainer/nehubaContainer.component.ts
+++ b/src/ui/nehubaContainer/nehubaContainer.component.ts
@@ -1,7 +1,7 @@
-import { Component, ViewChild, ViewContainerRef, ComponentFactoryResolver, ComponentFactory, ComponentRef, OnInit, OnDestroy, ElementRef, AfterViewInit } from "@angular/core";
+import { Component, ViewChild, ViewContainerRef, ComponentFactoryResolver, ComponentFactory, ComponentRef, OnInit, OnDestroy, ElementRef } from "@angular/core";
 import { NehubaViewerUnit } from "./nehubaViewer/nehubaViewer.component";
 import { Store, select } from "@ngrx/store";
-import { ViewerStateInterface, safeFilter, SELECT_REGIONS, getLabelIndexMap, DataEntry, CHANGE_NAVIGATION, isDefined, MOUSE_OVER_SEGMENT, USER_LANDMARKS } from "../../services/stateStore.service";
+import { ViewerStateInterface, safeFilter, SELECT_REGIONS, getLabelIndexMap, DataEntry, CHANGE_NAVIGATION, isDefined, MOUSE_OVER_SEGMENT, USER_LANDMARKS, ADD_NG_LAYER, REMOVE_NG_LAYER, SHOW_NG_LAYER, NgViewerStateInterface, HIDE_NG_LAYER } from "../../services/stateStore.service";
 import { Observable, Subscription, fromEvent, combineLatest, merge } from "rxjs";
 import { filter,map, take, scan, debounceTime, distinctUntilChanged, switchMap } from "rxjs/operators";
 import { AtlasViewerAPIServices, UserLandmark } from "../../atlasViewer/atlasViewer.apiService.service";
@@ -28,7 +28,7 @@ export class NehubaContainer implements OnInit, OnDestroy{
   public viewerLoaded : boolean = false
 
   private newViewer$ : Observable<any>
-  private loadedParcellation$ : Observable<any>
+  private selectedParcellation$ : Observable<any>
   private selectedRegions$ : Observable<any[]>
   private dedicatedView$ : Observable<string|null>
   private fetchedSpatialDatasets$ : Observable<any[]>
@@ -44,6 +44,10 @@ export class NehubaContainer implements OnInit, OnDestroy{
   private selectedRegionIndexSet : Set<number> = new Set()
   public fetchedSpatialData : DataEntry[] = []
 
+  private ngLayersRegister : NgViewerStateInterface = {layers : []}
+  private ngLayers$ : Observable<NgViewerStateInterface>
+  private selectedParcellationNgId : string
+
   private cr : ComponentRef<NehubaViewerUnit>
   public nehubaViewer : NehubaViewerUnit
   private regionsLabelIndexMap : Map<number,any> = new Map()
@@ -72,7 +76,7 @@ export class NehubaContainer implements OnInit, OnDestroy{
         state.templateSelected.name !== this.selectedTemplate.name)
     )
 
-    this.loadedParcellation$ = this.store.pipe(
+    this.selectedParcellation$ = this.store.pipe(
       select('viewerState'),
       safeFilter('parcellationSelected'),
       map(state=>state.parcellationSelected),
@@ -198,6 +202,10 @@ export class NehubaContainer implements OnInit, OnDestroy{
         map(arr => arr.map(v => Object.assign({}, v, {type : 'userLandmark'})))
       )
     ).pipe(map(arr => arr[0].concat(arr[1])))
+
+    this.ngLayers$ = this.store.pipe(
+      select('ngViewerState')
+    )
   }
 
   ngOnInit(){
@@ -240,11 +248,38 @@ export class NehubaContainer implements OnInit, OnDestroy{
         const foundParcellation = state.templateSelected.parcellations.find(parcellation=>
           state.parcellationSelected.name === parcellation.name)
         this.handleParcellation(foundParcellation ? foundParcellation : state.templateSelected.parcellations[0])
+
+        const nehubaConfig = state.templateSelected.nehubaConfig
+        const initialSpec = nehubaConfig.dataset.initialNgState
+        const {layers} = initialSpec
+        
+        const dispatchLayers = Object.keys(layers).map(key => {
+          const layer = {
+            name : key,
+            source : layers[key].source,
+            mixability : layers[key].type === 'image'
+              ? 'base'
+              : 'mixable',
+            visible : typeof layers[key].visible === 'undefined'
+              ? true
+              : layers[key].visible,
+            transform : typeof layers[key].transform === 'undefined'
+              ? null
+              : layers[key].transform
+          }
+          this.ngLayersRegister.layers.push(layer)
+          return layer
+        })
+
+        this.store.dispatch({
+          type : ADD_NG_LAYER,
+          layer : dispatchLayers
+        })
       })
     )
 
     this.subscriptions.push(
-      this.loadedParcellation$.subscribe((this.handleParcellation).bind(this))
+      this.selectedParcellation$.subscribe((this.handleParcellation).bind(this))
     )
 
     this.subscriptions.push(
@@ -269,6 +304,42 @@ export class NehubaContainer implements OnInit, OnDestroy{
       this.dedicatedView$.subscribe((this.handleDedicatedView).bind(this))
     )
 
+    this.subscriptions.push(
+      this.ngLayers$.subscribe(ngLayersInterface => {
+        if(!this.nehubaViewer)
+          return
+        
+        const newLayers = ngLayersInterface.layers.filter(l => this.ngLayersRegister.layers.findIndex(ol => ol.name === l.name) < 0)
+        const removeLayers = this.ngLayersRegister.layers.filter(l => ngLayersInterface.layers.findIndex(nl => nl.name === l.name) < 0)
+        
+        if(newLayers.length > 0){
+          const newLayersObj:any = {}
+          newLayers.forEach(obj => newLayersObj[obj.name] = obj)
+          this.nehubaViewer.loadLayer(newLayersObj)
+          this.ngLayersRegister.layers = this.ngLayersRegister.layers.concat(newLayers)
+        }
+
+        if(removeLayers.length > 0){
+          removeLayers.forEach(l => {
+            if(this.nehubaViewer.removeLayer({
+              name : l.name
+            }))
+              this.ngLayersRegister.layers = this.ngLayersRegister.layers.filter(rl => rl.name !== l.name)
+          })
+        }
+
+        /* this is how visibility should work, but this also hides the mesh and perspective view */
+        // ngLayersInterface.layers.forEach(l => typeof l.visible === 'undefined'
+        //   ? this.nehubaViewer.setLayerVisibility({ name : l.name}, true)
+        //   : this.nehubaViewer.setLayerVisibility({ name : l.name}, l.visible))
+
+
+        ngLayersInterface.layers.findIndex(l => l.mixability === 'nonmixable') >= 0
+          ? this.nehubaViewer.hideAllSeg()
+          : this.nehubaViewer.showSegs([...this.selectedRegionIndexSet])
+      })
+    )
+
     /* setup init view state */
     combineLatest(
       this.navigationChanges$,
@@ -281,6 +352,18 @@ export class NehubaContainer implements OnInit, OnDestroy{
         })
       this.nehubaViewer.initRegions = regions.map(re=>re.labelIndex)
       this.nehubaViewer.initDedicatedView = dedicatedView
+
+      /* TODO abit hacky. test what happens when: select dedicated view, then change template... check ngLayerRegister */
+      if(dedicatedView){
+        const dedicatedViewLayer = {
+          name : 'niftiViewer',
+          source : dedicatedView,
+          visible: true,
+          mixability : 'nonmixable',
+          transform:null
+        }
+        this.ngLayersRegister.layers.push(dedicatedViewLayer)
+      }
     })
 
     this.subscriptions.push(
@@ -330,10 +413,10 @@ export class NehubaContainer implements OnInit, OnDestroy{
     this.regionsLabelIndexMap = getLabelIndexMap(parcellation.regions)
     this.nehubaViewer.regionsLabelIndexMap = this.regionsLabelIndexMap
     this.nehubaViewer.parcellationId = parcellation.ngId
+    this.selectedParcellationNgId = parcellation.ngId
   }
 
   private handleDedicatedView(dedicatedView:string){
-    
     this.handleNifti(dedicatedView)
   }
 
@@ -344,20 +427,51 @@ export class NehubaContainer implements OnInit, OnDestroy{
       return
     }
     if(url === null){
-      this.nehubaViewer.removeLayer({
-        name : 'niftiViewer'
+      this.store.dispatch({
+        type : REMOVE_NG_LAYER,
+        layer : {
+          name : 'niftiViewer'
+        }
       })
-      this.nehubaViewer.showSegs([...this.selectedRegionIndexSet])
+      
+      this.store.dispatch({
+        type : SHOW_NG_LAYER,
+        layer : {
+          name : this.selectedParcellationNgId
+        }
+      })
+      // this.nehubaViewer.removeLayer({
+    //   name : 'niftiViewer'
+      // })
+      // this.nehubaViewer.showSegs([...this.selectedRegionIndexSet])
       
     }else{
-      this.nehubaViewer.hideAllSeg()
-      this.nehubaViewer.loadLayer({
-        niftiViewer : {
-          type : 'image',
+      // this.nehubaViewer.hideAllSeg()
+      this.store.dispatch({
+        type: HIDE_NG_LAYER,
+        layer : {
+          name : this.selectedParcellationNgId
+        }
+      })
+
+      this.store.dispatch({
+        type : ADD_NG_LAYER,
+        layer : {
+          name : 'niftiViewer',
           source : url,
+          mixability : 'nonmixable',
           shader : getActiveColorMapFragmentMain()
         }
       })
+
+      // this.nehubaViewer.loadLayer({
+      //   niftiViewer : {
+      //     type : 'image',
+      //     source : url,
+      //     shader : getActiveColorMapFragmentMain()
+      //   }
+      // })
+
     }
   }
 
diff --git a/src/ui/nehubaContainer/nehubaViewer/nehubaViewer.component.ts b/src/ui/nehubaContainer/nehubaViewer/nehubaViewer.component.ts
index c04102a4a..fc344b6b0 100644
--- a/src/ui/nehubaContainer/nehubaViewer/nehubaViewer.component.ts
+++ b/src/ui/nehubaContainer/nehubaViewer/nehubaViewer.component.ts
@@ -197,6 +197,8 @@ export class NehubaViewerUnit implements AfterViewInit,OnDestroy{
   }
 
   public setLayerVisibility(condition:{name:string|RegExp},visible:boolean){
+    if(!this.nehubaViewer)
+      return false
     const viewer = this.nehubaViewer.ngviewer
     viewer.layerManager.managedLayers
       .filter(l=>this.filterLayers(l,condition))
@@ -204,6 +206,8 @@ export class NehubaViewerUnit implements AfterViewInit,OnDestroy{
   }
 
   public removeLayer(layerObj:any){
+    if(!this.nehubaViewer)
+      return false
     const viewer = this.nehubaViewer.ngviewer
     const removeLayer = (i) => (viewer.layerManager.removeManagedLayer(i),i.name)
 
diff --git a/src/ui/pluginBanner/pluginBanner.component.ts b/src/ui/pluginBanner/pluginBanner.component.ts
index 4081d39d2..00e656092 100644
--- a/src/ui/pluginBanner/pluginBanner.component.ts
+++ b/src/ui/pluginBanner/pluginBanner.component.ts
@@ -1,5 +1,5 @@
 import { Component } from "@angular/core";
-import { PluginServices } from "../../atlasViewer/atlasViewer.pluginService.service";
+import { PluginServices, PluginManifest } from "../../atlasViewer/atlasViewer.pluginService.service";
 
 
 @Component({
@@ -13,6 +13,12 @@ import { PluginServices } from "../../atlasViewer/atlasViewer.pluginService.serv
 export class PluginBannerUI{
   
   constructor(public pluginServices:PluginServices){
+  }
 
+  clickPlugin(plugin:PluginManifest){
+    if(PLUGINDEV)
+      this.pluginServices.launchPlugin(plugin)
+    else
+      return
   }
 }
\ No newline at end of file
diff --git a/src/ui/pluginBanner/pluginBanner.style.css b/src/ui/pluginBanner/pluginBanner.style.css
index 0f51586a4..208e7f758 100644
--- a/src/ui/pluginBanner/pluginBanner.style.css
+++ b/src/ui/pluginBanner/pluginBanner.style.css
@@ -1,6 +1,7 @@
 :host
 {
-  margin-left:1em;
+  display:block;
+  margin:0.5em 1em;
 }
 
 .btn
@@ -16,21 +17,23 @@
   box-shadow : rgba(5, 5, 5, 0.1) 0px 4px 6px 0px;
 }
 
-.btn:hover
+.btn-default
 {
-  cursor:default;
-  opacity:1.0;
-  transform:translateY(-5%);
-  box-shadow : rgba(5, 5, 5, 0.25) 0px 4px 6px 0px;
+  background-color:rgba(255,255,255,0.8);
 }
 
-.btn-default
+.btn:hover
 {
-  background-color:rgba(255,255,255,0.8);
+  cursor: default;
 }
 
 :host-context([darktheme="true"]) .btn-default
 {
   background-color:rgba(80,80,80,0.8);
   color:white;
+}
+
+.btn.btn-disabled.btn.btn-disabled.btn.btn-disabled.btn.btn-disabled
+{
+  opacity:0.5;
 }
\ No newline at end of file
diff --git a/src/ui/pluginBanner/pluginBanner.template.html b/src/ui/pluginBanner/pluginBanner.template.html
index 849bc291b..b092c2750 100644
--- a/src/ui/pluginBanner/pluginBanner.template.html
+++ b/src/ui/pluginBanner/pluginBanner.template.html
@@ -1,6 +1,8 @@
 <div 
+  placement = "bottom"
+  tooltip = "coming soon"
   *ngFor = "let plugin of pluginServices.fetchedPluginManifests"
-  (click) = "pluginServices.launchPlugin(plugin)"
-  class = "btn btn-default">
+  (click) = "clickPlugin(plugin)"
+  class = "btn btn-default btn-disabled">
   {{ plugin.name }}
 </div>
\ No newline at end of file
diff --git a/webpack.aot.js b/webpack.aot.js
index b54d2b474..45c6c9278 100644
--- a/webpack.aot.js
+++ b/webpack.aot.js
@@ -29,11 +29,11 @@ module.exports = merge(staticAssets, {
         test: /(?:\.ngfactory\.js|\.ngstyle\.js|\.ts)$/,
         // test : /\.ts$/,
         loader: '@ngtools/webpack',
-        exclude : /export_nehuba/
+        exclude : /export_nehuba|plugin_example/
       },
       {
         test : /\.(html|css)$/,
-        exclude : /export\_nehuba|index|res\/css/,
+        exclude : /export\_nehuba|index|res\/css|plugin_example/,
         use : {
           loader : 'raw-loader',
         }
diff --git a/webpack.ngassets.js b/webpack.ngassets.js
index 791e57df7..4d6909f89 100644
--- a/webpack.ngassets.js
+++ b/webpack.ngassets.js
@@ -3,7 +3,7 @@ module.exports = {
     rules : [
       {
         test : /(html|css)$/,
-        exclude : /export\_nehuba|index/,
+        exclude : /export\_nehuba|index|plugin\_examples/,
         use : {
           loader : 'file-loader',
           options : {
diff --git a/webpack.staticassets.js b/webpack.staticassets.js
index d765dff3e..54db495c1 100644
--- a/webpack.staticassets.js
+++ b/webpack.staticassets.js
@@ -16,6 +16,7 @@ module.exports = {
       {
         type : 'javascript/auto',
         test : /ext.*?\.json/,
+        exclude : /plugin_examples/,
         use : [{
           loader : 'file-loader',
           options : {
@@ -23,6 +24,17 @@ module.exports = {
             outputPath : 'res/json'
           }
         }]
+      },
+      {
+        type : 'javascript/auto',
+        test : /plugin_examples/,
+        use : [{
+          loader : 'file-loader',
+          options : {
+            name : '[name].[ext]',
+            outputPath : 'res/plugins'
+          }
+        }]
       }
     ]
   },
-- 
GitLab