12 People Results for the Tag: Oocytes

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Wendy Hanna-Rose

Professor of Biochemistry and Molecular Biology; Head of BMB
Molecular Genetics of Metabolism and Development in C. elegans

Timothy Jegla

Emphasis Area Representative, Molecular and Evolutionary Genetics; Associate Professor of Biology
Functional evolution of eukaryotic ion channels and evolution of neuronal signaling and cell structure.

Jason Rasgon

Professor of Entomology and Disease Epidemiology
Integrating population biology, ecology, molecular tools and theory to address fundamental and applied questions related to vector arthropods and the pathogens they transmit.

Center for Infectious Disease Dynamics

Monica Medina

Professor of Biology

Center for Infectious Disease Dynamics

Francisco Diaz

Associate Professor of Reproductive Biology
Ovarian physiology. Role of SMAD-mediated signaling in follicular and female germ cell (oocyte) development.

Kateryna Makova

Director of the Center for Medical Genomics; Professor of Biology
Molecular evolution, population genetics, evolutionary genomics, bioinformatics, and human genetics.

Ramesh Ramachandran

Professor of Molecular Endocrinology
The influence of hypothalamic neurotransmitters, hormones, and their receptors on avian reproduction.

Sujit Pujhari

Assistant Research Professor

Wansheng Liu

Professor of Genomics
Functional annotation of farm animal genomes, structure and function of mammalian sex (X and Y) chromosome, spermatogenesis and male fertility.

Sally Assmann

Waller Professor of Biology
Molecular biology of plant G-proteins and kinases. Phytohormone regulation of signal transduction and RNA processing. Second messenger regulation of ion channels in plant cells.

John Golbeck

Professor of Biochemistry and Biophysics
Light reactions in photosynthesis. Structure and function of photosystem I and the heliobacterial reaction center. Regulation and bioassembly of iron-sulfur clusters in cyanobacteria and plants. Plant and bacterial metalloproteins. Generation using Photosystem I, hydrogenase, and molecular wire technology.

Peter Butler

Professor of Bioengineering
Fundamental molecular mechanisms by which vascular endothelial cells sense the forces from flowing blood and transduce this mechanical information into adjustments of cell and tissue biology.