Species Differences and Evolutionary Scaling of Loop Architecture
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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5CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Connectionally the avian “cortical-like” projection onto the striatum is direct. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Connectionally the avian “cortical-like” projection onto the striatum is direct. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Connectionally the avian “cortical-like” projection onto the striatum is direct. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Connectionally the avian “cortical-like” projection onto the striatum is direct. 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Connectionally the avian “cortical-like” projection onto the striatum is direct. 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Connectionally the avian “cortical-like” projection onto the striatum is direct. 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Connectionally the avian “cortical-like” projection onto the striatum is direct. 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...
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2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 3CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in
{numref}fig-sec15-cross-amniote-pallial-celltypes. The deepest amniote sample is the >450,000 single nuclei profiled by 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr... -
1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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4CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference0 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference1 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference2 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference3 Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey scope, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference4 The same evidence base sustains a sharp, unresolved disagreement — the first of the four conflicts this section must adjudicate. Cell-type-level analyses recover homologies that bulk-tissue analyses miss. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference5 show that the avian and alligator mesopallium — but not the nidopallium — shares a transcription-factor network with the intratelencephalic class of mammalian neocortical neurons (layers 2, 3, 5 and 6...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference6 The same evidence base sustains a sharp, unresolved disagreement — the first of the four conflicts this section must adjudicate. Cell-type-level analyses recover homologies that bulk-tissue analyses miss. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference7 show that the avian and alligator mesopallium — but not the nidopallium — shares a transcription-factor network with the intratelencephalic class of mammalian neocortical neurons (layers 2, 3, 5 and 6...
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1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference8 The same evidence base sustains a sharp, unresolved disagreement — the first of the four conflicts this section must adjudicate. Cell-type-level analyses recover homologies that bulk-tissue analyses miss. 1CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference, 2CitationModern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...content/sec_15_evolution.md:line 8Open reference9 show that the avian and alligator mesopallium — but not the nidopallium — shares a transcription-factor network with the intratelencephalic class of mammalian neocortical neurons (layers 2, 3, 5 and 6...
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... 113 additional anchors in refs_json
References
- [Reiner2004] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Jarvis2005] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Karten2015] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Puelles2000] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Fernandez1998] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Brox2003] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Moreno2018] “Modern descriptions of the avian forebrain treat its pallial and subpallial divisions as homologous to mammalian counterparts rather than to mammalian basal ganglia, reversing a century-old misclassification. The Avian Brain Nomenclature Consortium [Reiner2004,Jarvis2005] revised the terminology for avian pallial subdivisions so that names reflect pallial, not striatal, origin and homology with mammalian pallial str...”
- [Veenman1995] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Krner1999] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Moll2025] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Reiner2024] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Desfilis2017] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Jimenez2025] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Molnar2006] “Connectionally the avian "cortical-like" projection onto the striatum is direct. [Veenman1995] showed that a continuous expanse of pigeon outer pallium (Wulst, archistriatum and intervening pallium externum) projects to the basal-ganglia striatum (LPO+PA), establishing that the avian basal ganglia receive a cortical-class projection that includes both motor and cognitive territories. Pigeon caudolateral nidopallium...”
- [Bakken2021] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Jorstad2023] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Corrigan2025] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Hain2022] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Tosches2018] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Belgard2013] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Fu2025] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Woych2022] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Hegarty2024] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Tibi2023] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Karten2013] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Suzuki2014] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Wang2010] “Single-cell transcriptomic surveys span amniotes at very different sample depths and tissue scopes, summarised in {numref}`fig-sec15-cross-amniote-pallial-celltypes`. The deepest amniote sample is the >450,000 single nuclei profiled by [Bakken2021] in human, marmoset and mouse primary motor cortex, demonstrating broadly conserved cellular makeup with similarities mirroring evolutionary distance, while the largest pr...”
- [Briscoe2018] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Colquitt2021] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Feenders2008] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Hodge2019] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Jarvis2013] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Krienen2020] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Krienen2023] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Pfenning2014] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Wada2004] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Zeisel2018] “Scope of cross-species pallial and telencephalic transcriptomic surveys cited in this review. Each bar reports the number of species sampled (unit type and anatomical scope annotated). Studies sit on incommensurable scales — bulk RNA-seq vs single-cell vs single-nucleus vs ISH panels — so this figure shows survey *scope*, not a comparable cell count. Per figure-comparability analysis, prior single-axis cardinality p...”
- [Dugas2012] “The same evidence base sustains a sharp, unresolved disagreement — the first of the four conflicts this section must adjudicate. Cell-type-level analyses recover homologies that bulk-tissue analyses miss. [Briscoe2018] show that the avian and alligator mesopallium — but not the nidopallium — shares a transcription-factor network with the intratelencephalic class of mammalian neocortical neurons (layers 2, 3, 5 and 6...”
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