血漿アルブミン分子の構造転移
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概要
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Because of its ready availability and multiplicities of functions, such as its unusual and versatile liganding ability, plasma albumin has become one of the most extensively studied proteins. In the review, the author discussed on the following four items with relation to "THE DOMAIN MODEL" and the liganding ability of plasma albumin.<BR>(1) Plasma albumin is considered microheterogeneous stemmed from studied of the N-F transition, a highly cooperative transition in acidic solution.<BR>(2) As the pH of plasma albumin solution is lowered below the isoelectric point, plasma albumin shows three-step transitions, N-F<SUB>1</SUB>, F<SUB>1</SUB>-F<SUB>2</SUB> transitions and acid-expansion.<BR>(3) Near the physiological pH range (0.15M NaCl, 0.002M CaCl<SUB>2</SUB>: pH 7.0-8.0), plasma albumin shows the N-B transition, resulting in an increase of the conformational fluctuation.<BR>(4) Above the neutral pH, the SH group of CYS<SUP>34</SUP> of defatted plasma albumin catalyzes the intramolecular disulfide exchange reaction, resulting in the new isomeric form, A form.
- 日本生物物理学会の論文