Investigating the molecular basis of visual system development
We study the gene networks that transform the embryonic cells into a complex, differentiated organ. We focus on exploring this question by studying the process of eye development as a model for organogenesis. We apply cutting-edge technologies including mouse genetic tools (Cre/loxP), molecular biology, and microarray analysis to identify and functionally characterize genes that regulate the development of the eye in mammals. Understanding the normal developmental regulation of the different eye structures is essential for understanding visual disorders and designing treatments for ocular phenotypes including retinal degeneration, glaucoma and cataracts, all of which are leading causes of blindness. Read More »
Open position for highly qualified and motivated PhD and Postdoctoral fellows to join a dynamic laboratory in the field of Molecular Developmental Biology. Candidates should have a degree in life sciences and preferably previous experience in laboratory work. Experience in bioinformatics and/or live cells imaging tools is an advantage.
Please send the C.V. and names of referees to Ruth Ashery-Padan