Browsing by Subject "Notch signaling"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item Function and regulation of Drosophila Epsin in notch signaling(2011-12) Xie, Xuanhua; Fischer, Janice Ann; Macdonald, Paul M.; O'Halloran, Theresa J.; Morgan, Jennifer R.; Thompson, Wesley J.Epsin is an endocytic protein that binds Clathrin, the plasma membrane, Ubiquitin, and also a variety of other endocytic proteins through well-characterized motifs. Although Epsin is a general endocytic factor, genetic analysis in Drosophila and mice revealed that Epsin is essential specifically for internalization of ubiquitinated transmembrane ligands of the Notch receptor, a process required for Notch activation. How Epsin promotes ligand endocytosis and thus Notch signaling is unclear. Here, by generating Drosophila lines containing transgenes that express a variety of different Epsin deletion and substitution variants, I tested each of the five protein or lipid interaction modules of Epsin for a role in Notch activation by each of the two Drosophila ligands, Serrate and Delta. here are five main results of this work that impact present thinking about endocytic machinery/Epsin, Epsin/ligand, or ligand/receptor interactions at the plasma membrane. First, I discovered that deletion or mutation of both UIMs destroys Epsin’s function in Notch signaling and has a greater negative effect on Epsin’s ability to function than removal of any other module type. Second, only one of the two UIMs of Epsin is essential. Third, the lipid-binding function of the ENTH domain is required for maximal Epsin activity. Fourth, although the C-terminal Epsin modules that interact with Clathrin, the adapter protein complex AP-2, or endocytic accessory proteins are necessary collectively for Epsin activity, their functions are highly redundant. Finally, I detected no ligand-specific requirements for Epsin modules. Most unexpected was the finding that Epsin’s Clathrin binding motifs were dispensable. All of these observations are consistent with a model where Epsin’s essential function in ligand cells is to link ubiquitinated Notch ligands to Clathrin-coated vesicles through other Clathrin adapter proteins.Item Identification of genes that interact with liquid facets(2012-08) Van Der Ende, Gerrit Alexander; Fischer, Janice AnnThe protein Liquid facets (Lqf) promotes endocytosis at the plasma membrane1. Lqf activity is required for proper Notch signaling, likely through facilitating the endocytosis of Notch ligand by indirectly linking ligand to clathrin. A genetic modifier screen to identify genes that interact with lqf was performed by a previous graduate student. Genes identified in the screen might provide new insights into how Lqf promotes endocytosis or how Notch signaling is regulated. In this work, I performed genetic mapping techniques to identify the genes mutated in each complementation group of the screen. I identified the gene mutated in complementation group 6 as mitochondrial alanyl tRNA synthetase (Aats-ala-m). tRNA synthetases link a tRNA to its cognate amino acid during translation. Mitochondrial tRNA synthetases function in the mitochondria in translation. Aats-ala-m genetically interacts with lqf, suggesting the two genes function in the same pathway. In this work, I also identified chromosomal regions where the genes mutated in complementation groups 1,2, and 9 are located.