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Kinase Regulatory Mechanisms in Cancer Research Highlights

Learn about the latest breakthroughs in cancer research with a focus on kinase regulatory mechanisms. Discover how new findings on ERBB2 kinase domain and SSTK6 are revolutionizing our understanding of oncogenic activation and male fertility. Dive into research on mutants, substrate specificity, and the impact of HSP90 on spermiogenesis.

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Kinase Regulatory Mechanisms in Cancer Research Highlights

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  1. Gibbes JohnsonOverview and Highlights ofResearch ProgramCTGTACApril 17, 2013

  2. Research Areas

  3. Research Areas

  4. Highlights • Identified a new kinase regulatory mechanism in ERBB2 kinase domain. aC-b4 loop functions as an intramolecular switch to control ERBB2 kinase activity and is involved oncogenic activation • Studies of ERBB2 lung cancer mutants revealed that oncogenic mutation leads to altered substrate specificity of the kinase. Transforming activity of mutants results from acquired substrate preference for the adaptor protein GAB1

  5. Highlights • Discovered small serine/threonine kinase (SSTK; TSSK6) and found that the kinase is essential for male fertility • Developed a strategy for rapid evaluation of bioreactor process changes in the manufacturing of mannose-6-phosphorylated therapeutic enzymes, and characterized the impact of inducing agents on glycan phosphorylation

  6. Highlights of Kula Jha’s Research • Identified and characterized TSSK6 activating cochaperone (TSACC): a novel HSP70-binding protein critical to HSP90-mediated activation of TSSK6 (SSTK) • Demonstrated that HSP90 functions to stabilize and activate the TSSKs, a family of protein kinases required for spermiogenesis and fertility • Future work will focus on (i) identification of physiological substrates for TSSK6 and (ii) role of HSP90 in spermiogenesis

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