A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - Elife, 2023 - elifesciences.org
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …
被引用次数:6 相关文章

A brain-wide analysis maps structural evolution to distinct anatomical modules

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - bioRxiv, 2022 - biorxiv.org
Brain anatomy is highly variable and it is widely accepted that anatomical variation impacts
brain function and ultimately behavior. The structural complexity of the brain, including …
[HTML] nih.gov

[HTML][HTML] A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - eLife, 2023 - ncbi.nlm.nih.gov
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …
[PDF] academia.edu

[PDF][PDF] A brain-wide analysis maps structural evolution to distinct anatomical modules

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - academia.edu
Brain anatomy is highly variable and it is widely accepted that anatomical variation impacts
brain function and ultimately behavior. The structural complexity of the brain, including …

A brain-wide analysis maps structural evolution to distinct anatomical module.

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - eLife, 2023 - search.ebscohost.com
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …
[PDF] semanticscholar.org

[PDF][PDF] A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - pdfs.semanticscholar.org
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …

A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - eLife, 2023 - agris.fao.org
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …

A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - eLife, 2023 - par.nsf.gov
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …

A brain-wide analysis maps structural evolution to distinct anatomical module

RA Kozol, AJ Conith, Y Anders, A Cree-Newman… - eLife, 2023 - search.proquest.com
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …

A brain-wide analysis maps structural evolution to distinct anatomical module.

RA Kozol, AJ Conith, A Yuiska, A Cree-Newman… - Elife, 2023 - europepmc.org
The vertebrate brain is highly conserved topologically, but less is known about
neuroanatomical variation between individual brain regions. Neuroanatomical variation at …