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Full-Text Articles in Chemistry
Molecular Mechanism Of Protein Kinase Recognition And Sorting By The Hsp90 Kinome-Specific Cochaperone Cdc37, Dimitra Keramisanou, Adam Aboalroub, Ziming Zhang, Wenjun Liu, Devon Marshall, Andrea Diviney, Randy W. Larsen, Ralf Landgraf, Ioannis Gelis
Molecular Mechanism Of Protein Kinase Recognition And Sorting By The Hsp90 Kinome-Specific Cochaperone Cdc37, Dimitra Keramisanou, Adam Aboalroub, Ziming Zhang, Wenjun Liu, Devon Marshall, Andrea Diviney, Randy W. Larsen, Ralf Landgraf, Ioannis Gelis
Chemistry Faculty Publications
Despite the essential functions of Hsp90, little is known about the mechanism that controls substrate entry into its chaperone cycle. We show that the role of Cdc37 cochaperone reaches beyond that of an adaptor protein and find that it participates in the selective recruitment of only client kinases. Cdc37 recognizes kinase specificity determinants in both clients and nonclients and acts as a general kinase scanning factor. Kinase sorting within the client-to-nonclient continuum relies on the ability of Cdc37 to challenge the conformational stability of clients by locally unfolding them. This metastable conformational state has high affinity for Cdc37 and forms …
Inactivation Of Peptidylglycine Α-Hydroxylating Monooxygenase By Cinnamic Acid Analogs, Neil R. Mcintyre, Edward W. Lowe Jr, Matthew R. Battistini, James W. Leahy, David J. Merkler
Inactivation Of Peptidylglycine Α-Hydroxylating Monooxygenase By Cinnamic Acid Analogs, Neil R. Mcintyre, Edward W. Lowe Jr, Matthew R. Battistini, James W. Leahy, David J. Merkler
Chemistry Faculty Publications
Peptidylglycine α-amidating monooxygenase (PAM) is a bifunctional enzyme that catalyzes the final reaction in the maturation of α-amidated peptide hormones. Peptidylglycine α-hydroxylating monooxygenase (PHM) is the PAM domain responsible for the copper-, ascorbate- and O2-dependent hydroxylation of a glycine-extended peptide. Peptidylamidoglycolate lyase is the PAM domain responsible for the Zn(II)-dependent dealkylation of the α-hydroxyglycine-containing precursor to the final α-amidated peptide. We report herein that cinnamic acid and cinnamic acid analogs are inhibitors or inactivators of PHM. The inactivation chemistry exhibited by the cinnamates exhibits all the attributes of a suicide-substrate. However, we find no evidence for the formation …