Comparative analyses of neuronal phenotypes in closely related species can shed light on neuronal changes occurring during evolution. The study of post-mortem brains of nonhuman primates (NHPs) has been limited and often does not recapitulate important species-specific developmental hallmarks. We utilize induced pluripotent stem cell (iPSC) technology to investigate the development of cortical pyramidal neurons following migration and maturation of cells grafted in the developing mouse cortex. Our results show differential migration patterns in human neural progenitor cells compared to those of chimpanzees and bonobos both in vitro and in vivo, suggesting heterochronic changes in human neurons. The strategy proposed here lays the groundwork...
It has been hypothesized that the higher number of neurons in human cortex compared to the chimpanze...
The study of human cortical development has major implications for brain evolution and diseases but ...
The study of human cortical development has major implications for brain evolution and diseases but ...
Comparative analyses of neuronal phenotypes in closely related species can shed light on neuronal ch...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
WOS: 000458101700001PubMed ID: 30730291Comparative analyses of neuronal phenotypes in closely relate...
Comparing the biology of humans to that of other primates, and notably other hominids, is a useful p...
Human neocortex expansion likely contributed to the remarkable cognitive abilities of humans. This e...
The brain is one of the most complex organs, responsible for the advanced intellectual and cognitive...
The common marmoset (Callithrix jacchus) is a small New World primate that has been used as a non-hu...
The study of human cortical development has major implications for brain evolution and diseases but ...
It has been hypothesized that the higher number of neurons in human cortex compared to the chimpanze...
The study of human cortical development has major implications for brain evolution and diseases but ...
The study of human cortical development has major implications for brain evolution and diseases but ...
Comparative analyses of neuronal phenotypes in closely related species can shed light on neuronal ch...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
International audienceComparative analyses of neuronal phenotypes in closely related species can she...
WOS: 000458101700001PubMed ID: 30730291Comparative analyses of neuronal phenotypes in closely relate...
Comparing the biology of humans to that of other primates, and notably other hominids, is a useful p...
Human neocortex expansion likely contributed to the remarkable cognitive abilities of humans. This e...
The brain is one of the most complex organs, responsible for the advanced intellectual and cognitive...
The common marmoset (Callithrix jacchus) is a small New World primate that has been used as a non-hu...
The study of human cortical development has major implications for brain evolution and diseases but ...
It has been hypothesized that the higher number of neurons in human cortex compared to the chimpanze...
The study of human cortical development has major implications for brain evolution and diseases but ...
The study of human cortical development has major implications for brain evolution and diseases but ...