External seminar - Rebecca Heald, Université de Californie, Berkeley
Invited by Romain Gibeaux, Rebecca Heald, will present her recent research on the mechanisms of cell division and biological size control.
Fun experiments you can only do with frogs
My laboratory investigates fundamental questions of cell division and size control during vertebrate development. We leverage frogs of the genus Xenopus that span in genome size from diploid (2N, Xenopus tropicalis) to dodecaploid (12N, Xenopus longipes) to investigate consequences of the conserved relationship between genome size and cell size on embryogenesis and explore the molecular basis and physiological consequences of scaling relationships.
A unique feature of Xenopus systems is the ability to reconstitute assembly of the meiotic or mitotic spindle in vitro using cytoplasmic extracts. By combining cell biological, biochemical, and bioinformatic approaches in embryos and extract systems, we are currently investigating mechanisms of ovocyte growth, the incidence of aneuploidy during embryogenesis, adaptation of the cell division machinery to increased ploidy, chromosome mis-segregation in inviable hybrids, and the cellular basis of metabolic scaling. Our studies aim to reveal fundamental principles of spindle assembly and biological size control, and the molecular basis of variation that contributes to genomic instability and evolution.
Rebecca Heald is an American professor specializing in cell and developmental biology, currently based at the University of California, Berkeley. Her research focuses on the mechanisms of cell division and biological size control.
Contact: Romain Gibeaux
Biology i Health
Séminaire externe - Rebecca Heald, Université de Californie, Berkeley
Invitée par Romain Gibeaux, Rebecca Heald, présentera ses recherches sur les mécanismes de division cellulaire et le contrôle de la taille biologique.
Fun experiments you can only do with frogs
My laboratory investigates fundamental questions of cell division and size control during vertebrate development. We leverage frogs of the genus Xenopus that span in genome size from diploid (2N, Xenopus tropicalis) to dodecaploid (12N, Xenopus longipes) to investigate consequences of the conserved relationship between genome size and cell size on embryogenesis and explore the molecular basis and physiological consequences of scaling relationships.
A unique feature of Xenopus systems is the ability to reconstitute assembly of the meiotic or mitotic spindle in vitro using cytoplasmic extracts. By combining cell biological, biochemical, and bioinformatic approaches in embryos and extract systems, we are currently investigating mechanisms of ovocyte growth, the incidence of aneuploidy during embryogenesis, adaptation of the cell division machinery to increased ploidy, chromosome mis-segregation in inviable hybrids, and the cellular basis of metabolic scaling. Our studies aim to reveal fundamental principles of spindle assembly and biological size control, and the molecular basis of variation that contributes to genomic instability and evolution.
Rebecca Heald est une professeure américaine spécialisée en biologie cellulaire et du développement. Actuellement en poste à l'Université de Californie, Berkeley, ses recherches portent sur les mécanismes de division cellulaire et le contrôle de la taille biologique.
Contact : Romain Gibeaux
Biologie i Santé
