Cross-areal mouse cortico-cortical excitatory connectivity: hierarchical feedforward and feedback as recurrent loops at the network level; Allen Mouse Connectivity Atlas anchored views
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1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, with its dataset... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, with its dataset... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, with its dataset... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, with its dataset... -
5CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, with its dataset... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1, with its dataset... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3, with its dataset... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5, with its dataset... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7, with its dataset... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9, with its dataset... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1, with its dataset... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3, with its dataset... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 The within-area cell-type motifs assembled in{ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5, with its dataset... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
2CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 Mouse vs macaque cortico-cortical graph density — binary scalar vs qualitative hierarchy. Two studies anchor the dense-graph claim on incompatible quantities, so the panels are split by what each study measures. (A) Binary inter-areal connection density (fraction of directed area pairs that are connected) is 0.97 for mouse cortex on the 47-area retrograde dataset of 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 versus 0.66 for the macaque refe... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 Mouse vs macaque cortico-cortical graph density — binary scalar vs qualitative hierarchy. Two studies anchor the dense-graph claim on incompatible quantities, so the panels are split by what each study measures. (A) Binary inter-areal connection density (fraction of directed area pairs that are connected) is 0.97 for mouse cortex on the 47-area retrograde dataset of 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 versus 0.66 for the macaque refe... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
3CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5, so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 Within that dense weighted graph, 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 Within that dense weighted graph, 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 Within that dense weighted graph, 4CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 Within that dense weighted graph, 4CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 Within that dense weighted graph, 4CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 Within that dense weighted graph, 4CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
4CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 Within that dense weighted graph, 4CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 Within that dense weighted graph, 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
5CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
5CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela... -
5CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 Whether the mouse cortico-cortical network can be summarised by a single hierarchy. 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5 fit a coherent shallow hierarchy from FF/FB axon-termination labels across 43 isocortical areas plus thalamus, whereas 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 analyse the same data with continuous laminar-pattern beta regression and report that the network comprises multiple non-hierarchical circuits embedded within a hierarchical organisation... -
5CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 Whether the mouse cortico-cortical network can be summarised by a single hierarchy. 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 fit a coherent shallow hierarchy from FF/FB axon-termination labels across 43 isocortical areas plus thalamus, whereas 5CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 analyse the same data with continuous laminar-pattern beta regression and report that the network comprises multiple non-hierarchical circuits embedded within a hierarchical organisation... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference0 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference1 used s... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference2 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference3 used s... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference4 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference5 used s... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference6 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference7 used s... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference8 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference9 used s... -
1CitationThe within-area cell-type motifs assembled in {ref}
sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference00 How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning in vivo — give partly inconsistent answers about cell-class specificity ({numref}fig-sec8-v1-feedback-celltype-specificity). 1CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 2CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference, 3CitationThe within-area cell-type motifs assembled in {ref}sec-celltype-motifs— IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...content/08_cross_areal.md:line 5Open reference01 used s... -
... 107 additional anchors in refs_json
References
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- [Wang2020a] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Wang2014] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Harris2019] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Gamanut2018] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [DSouza2022] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Knox2019] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Minamisawa2018] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Westerberg2024] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Han2018] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Yao2024] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Gao2022] “The within-area cell-type motifs assembled in {ref}`sec-celltype-motifs` — IT/PT/CT asymmetries, L5 thick-tufted recurrence, the limited predictive power of fine transcriptomic type for E→E wiring — define the local recurrent unit but leave open how those units are wired across the network. The Allen Mouse Brain Connectivity Atlas anchors that question anatomically [Sporns2014, Wang2020a, Wang2014], with its dataset...”
- [Grandjean2017] “The cortico-cortical projection matrix in mouse, as quantified by retrograde and anterograde surveys, is much denser than the macaque graph at comparable parcellation and spans a wide range of weights. [Gamanut2018] performed retrograde tracing across 27 injections into 19 of 47 parcellated areas and reported a binary inter-areal density of 0.97, with weights spanning five orders of magnitude — well above the 0.66 c...”
- [Fasoli2026] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Oh2021] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Szczupak2021] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Szczupak2023] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Yorke1975] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Watakabe2018] “The weighted graph beneath the binary density carries additional structure. A whole-cortex attractor-dynamics model on the directed Allen matrix reproduces the topographic organisation of empirical fMRI co-activation patterns and breaks when fiber directionality is neglected [Fasoli2026], so the weighted matrix carries enough directional information to constrain network-level dynamics. A bioinformatic reanalysis of...”
- [Murgas2020] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Marshel2011] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Song2024] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Jia2022] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Barzegaran2022] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Garrett2014] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [Song2020] “Within that dense weighted graph, [Harris2019] derived a hierarchy by labelling each cortico-cortical projection as feedforward or feedback from its axon-termination pattern across ∼1,000 Cre-driver tracer experiments and fitting a per-area score that minimises FF/FB violations. The resulting hierarchy spans 43 isocortical areas plus thalamus, is described by the authors as shallow, and is consistent across cell-cla...”
- [DSouza2016] “A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. [DSouza2022] fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela...”
- [DSouza2017] “A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. [DSouza2022] fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela...”
- [Sennesh2025] “A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. [DSouza2022] fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela...”
- [Miyashita2024] “A parallel analysis of the same tracer data argues that a single hierarchy is the wrong summary. [DSouza2022] fit a continuous hierarchical-distance metric to laminar termination patterns across ten mouse visual cortical areas using beta regression, find that ventral- and dorsal-stream subnetworks differ in hierarchy depth (ventral more strictly hierarchical), and emphasise reciprocal pairs of areas whose FF/FB rela...”
- [Young2021] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
- [Glickfeld2013] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
- [Huh2018] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
- [Ji2015] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
- [Meier2025] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
- [Li2021a] “How that hierarchy is read at the cellular level depends on which observable is measured. Three measurements — postsynaptic EPSC strength on identified projection neurons, presynaptic input-cell distributions recovered by monosynaptic rabies, and bouton functional tuning *in vivo* — give partly inconsistent answers about cell-class specificity ({numref}`fig-sec8-v1-feedback-celltype-specificity`). [Young2021] used s...”
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