Structure-function characterization of SRMS: Validation of Dok1 as a SRMS substrate
SRMS (Src-Related tyrosine kinases lacking C-terminal Regulatory tyrosine and N terminal Myristoylation Sites) belongs to a family of non-receptor tyrosine kinases, which also includes breast tumor kinase (BRK). SRMS was first identified in 1994 in a screen for the genes that regulate the growth and differentiation of neuroepithelial cells. This 54 kDa protein spanning 488 amino acids, consists of the prototypical Src homology 3 (SH3), Src homology 2 (SH2) and a tyrosine kinase domain. While BRK has been documented for its expression in over 60 % of breast carcinomas, information on SRMS on similar grounds remains absent from the literature. Furthermore, unlike BRK, knowledge of how SRMS regulates its enzymatic activity as well as the identification of its substrates remains unknown. The work in this thesis demonstrates that SRMS is potentially expressed in the majority of breast carcinomas. To understand the biochemical and cellular functions of SRMS, a series of mutants comprising point mutations as well as the deletion of the N-terminal region and the functional, SH3 and SH2 domains, were generated and assessed for enzymatic activity in cells. This study demonstrates for the first time that the wild type protein is apparently constitutively active and that its N-terminal region regulates its enzymatic activity. As well, three critical amino acid residues in the protein namely, lysine 258 (ATP binding site), tyrosine 380 (auto-phosphorylation site) and tryptophan 223 (intramolecular interaction) have been characterized. All three residues have been determined to be essential for the enzymatic activity of SRMS. Finally, the adapter protein Dok1 has been characterized as a novel substrate of SRMS. The results from the present study underscore the potential significance of the catalytically active non-receptor tyrosine kinase, SRMS that should serve as a foundation upon which further research may ensue in the context of breast tumorigenesis.
DegreeMaster of Science (M.Sc.)
SupervisorLukong, Kiven E.
CommitteeRoesler, William J.; Moore, Stanley A.; Anderson, Deborah; Mousseau, Darrell D.
Copyright DateNovember 2013
SRMS, Dok1, BRK, FRK, Tyrosine kinase, phosphorylation, SH3, SH2.