1. Ubiquitination in Drosophila Development and tumorigenesis：

Ubiquitination is a post-translational regulation of protein activity in which E3 ligase recognizes substrates for this modification. My lab focuses on the role of proto-oncogene Cbl, an E3 ligase, in EGFR signaling during Drosophila axis determination, and cancer cell growth. We found that Cbl promotes the endocytosis and degradation of ligand-EGFR complex to down-regulate EGFR signaling in Drosophila egg and cancer cells. Interestingly, Cbl regulates the formation of polymeric structure of CTP synthase (CTPsyn filaments) to modulate endoreplication. Currently, we are investigating the molecular mechanisms, and the relationship between CTPsyn filament and tumorigenesis. 

  2. Methionine Metabolism in Drosophila Regeneration and Egg Development：

Methionine metabolism is involved in the methylation of DNA, RNA, protein, and lipid. We found that deficiency of Adi1, an enzyme in methionine salvage pathway, reduced Drosophila fecundity. The methionine metabolism is also found to be required for protein trafficking during morphogenesis of dorsal follicle cells, and wing regeneration. We are currently investigating the molecular mechanisms, which may help us understand the biological function of methylation during regeneration and development.