The nuclear envelope is composed of three distinct membrane domains, the inner and outer nuclear membrane and the wall of nuclear pore complexes. A characteristic feature for the inner nuclear membrane is the nuclear lamina and a subset of inner nuclear membrane proteins, including LEM-domain proteins. A growing number of human inherited diseases known as laminopathies, are caused by mutations in genes encoding lamin A/C and LEM-domain proteins. The complexity of LEM-domain protein composition in Drosophila is comparable to that in human, therefore the fruitfly present a powerful genetic system for analyzing the functional relationships among LEM-domain proteins, lamins and BAF, as well as the mechanisms underlying laminopathic diseases. A combination of cell biological, genetic and biochemical approaches will be used to address fundamental questions concerning the structure, organization, interactions and basic functions of LEM-domain proteins in Drosophila. The developmental and possible cell type specific expression pattern of LEM-domain proteins will be analyzed using proteinblot- and whole mount in situ hybridization techniques. To determine the interaction of the Drosophila LEM-domain proteins with lamins and BAF, co-immunoprecipitations and blot overlay experiments will be performed. To identify potential novel binding partners, the Yeast Two-Hybrid System will be used. Potential interactions will be verified using blot overlay experiments and RNAi experiments. To analyze the (possible overlapping) functions of the Drosophila LEM-domain proteins, these proteins as well as their potential binding partners will be simultaneously down regulated in different combinations in Drosophila cells and during Drosophila development by RNAi.

DFG Programme Research Fellowships

International Connection Sweden

Hosts Professor Dr. Georg Krohne; Professor Dr. Christos Samakovlis