EPISODE · Nov 26, 2022 · 22 MIN
CARTA: Imagining the Future of Anthropogeny - Using Stem Cells to Study Human Origins with Carol Marchetto
from CARTA - Anthropogeny (Audio) · host UCTV: UC San Diego
The human brain has a larger mass with respect to body weight, increased cortical neurons with respect to size, an expanded proliferative zone, and unique connectivity patterns. Human-specific neurodevelopment is not only marked by physical differences, but also by temporal changes. Human neurons, during both prenatal neurodevelopment and adult neurogenesis, exhibit an exceptionally delayed time course, a characteristic termed neoteny. Signatures of human-specific neoteny have been observed and reproduced across different systems including induced pluripotent stem cell (iPSC) and brain organoids models. We compared neurogenesis across stem cells from five primate species - rhesus, gorilla, bonobo, chimpanzee, human - and assessed the differences in transcriptional dynamics. We identified a pioneer transcription factor, GATA3, that exhibited elevated neuronal expression only in humans. This finding provides evidence for the divergence of gene regulation as a contributor to human neoteny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Humanities] [Science] [Education] [Show ID: 38301]
What this episode covers
The human brain has a larger mass with respect to body weight, increased cortical neurons with respect to size, an expanded proliferative zone, and unique connectivity patterns. Human-specific neurodevelopment is not only marked by physical differences, but also by temporal changes. Human neurons, during both prenatal neurodevelopment and adult neurogenesis, exhibit an exceptionally delayed time course, a characteristic termed neoteny. Signatures of human-specific neoteny have been observed and reproduced across different systems including induced pluripotent stem cell (iPSC) and brain organoids models. We compared neurogenesis across stem cells from five primate species - rhesus, gorilla, bonobo, chimpanzee, human - and assessed the differences in transcriptional dynamics. We identified a pioneer transcription factor, GATA3, that exhibited elevated neuronal expression only in humans. This finding provides evidence for the divergence of gene regulation as a contributor to human neoteny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Humanities] [Science] [Education] [Show ID: 38301]
NOW PLAYING
CARTA: Imagining the Future of Anthropogeny - Using Stem Cells to Study Human Origins with Carol Marchetto
No transcript for this episode yet
Similar Episodes
Mar 26, 2026 ·1m
Feb 8, 2026 ·4m
Jan 30, 2026 ·6m
Jan 2, 2026 ·47m