The cerebral cortex retains its fundamental organization, layering, and input-output relations as it scales in volume over many orders of magnitude in mammals. How is its network architecture affected by size scaling? By comparing network organization of the mouse and rhesus macaque cortical connectome derived from complete neuroanatomical tracing studies, a recent study in PLOS Biology shows that an exponential distance rule emerges that reveals the falloff in connection probability with distance in the two brains that in turn determines common organizational features
The operation of real world networks is largely determined by their weighted and spatial characteris...
Mammalian brains constitute complex organized networks of neural projections. On top of their binary...
The mammalian brain varies in volume by five orders of magnitude. These size differences also affect...
International audienceMammals show a wide range of brain sizes, reflecting adaptation to diverse hab...
SummaryRecent advances in neuroscience have engendered interest in large-scale brain networks. Using...
Brains come in many shapes and sizes. Nature has endowed big-brained primate species like humans wit...
Brains come in many shapes and sizes. Nature has endowed big-brained primate species like humans wit...
Why are biological structures shaped or organized like they are? For example, why is the brain in th...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The cerebral cortex of mammals exhibits intricate interareal wiring. Moreover, mammalian cortices di...
Macroscale connectivity of the mammalian brain has been shown to display several characteristics of ...
The cerebral cortex of mammals exhibits intricate interareal wiring. Moreover, mammalian cortices di...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The connections linking neurons within and between cerebral cortical areas form a multiscale network...
The operation of real world networks is largely determined by their weighted and spatial characteris...
Mammalian brains constitute complex organized networks of neural projections. On top of their binary...
The mammalian brain varies in volume by five orders of magnitude. These size differences also affect...
International audienceMammals show a wide range of brain sizes, reflecting adaptation to diverse hab...
SummaryRecent advances in neuroscience have engendered interest in large-scale brain networks. Using...
Brains come in many shapes and sizes. Nature has endowed big-brained primate species like humans wit...
Brains come in many shapes and sizes. Nature has endowed big-brained primate species like humans wit...
Why are biological structures shaped or organized like they are? For example, why is the brain in th...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The cerebral cortex of mammals exhibits intricate interareal wiring. Moreover, mammalian cortices di...
Macroscale connectivity of the mammalian brain has been shown to display several characteristics of ...
The cerebral cortex of mammals exhibits intricate interareal wiring. Moreover, mammalian cortices di...
The brain connectome is an embedded network of anatomically interconnected brain regions, and the st...
The connections linking neurons within and between cerebral cortical areas form a multiscale network...
The operation of real world networks is largely determined by their weighted and spatial characteris...
Mammalian brains constitute complex organized networks of neural projections. On top of their binary...
The mammalian brain varies in volume by five orders of magnitude. These size differences also affect...