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Title: Differences in the molecular structure of beta(2)-microglobulin between two morphologically different amyloid fibrils. Author: Hiramatsu H, Lu M, Matsuo K, Gekko K, Goto Y, Kitagawa T. Journal: Biochemistry; 2010 Feb 02; 49(4):742-51. PubMed ID: 20028123. Abstract: Differences in the molecular structures of beta(2)-microglobulin between the two morphologically different amyloid fibrils having a needlelike [long-straight (LS)] and flexible [wormlike (WL)] character were investigated by infrared, Raman, and vacuum-ultraviolet circular dichroism spectroscopy. It turned out that although the beta-sheet content was comparable between the two kinds of fibrils (53 +/- 6% for the LS fibril and 47 +/- 6% for the WL fibril), the protonation states of the carboxyl side chains were distinctly different; the deprotonated (COO(-)) and protonated (COOH) forms were dominant in the LS and WL fibrils at pH 2.5, respectively, meaning that the pK(a) is specifically lowered in the LS fibril. Such a difference was not observed for the fibrils of the core fragments. Since site-specific interactions generally cause variation in the pK(a) of carboxyl side chains in proteins, these results suggest that "hook"-like interactions generated by hydrogen bonding and the formation of a salt bridge are present in the LS fibril, providing enthalpic stabilization. Presumably, the carboxyl groups fix the spatial arrangement of beta-strands and beta-sheets, bringing about the needlelike morphology. The absence of this regulation would result in the flexible morphology of the WL fibril, providing entropic stabilization.[Abstract] [Full Text] [Related] [New Search]