基于其晶体结构对黑麦种子中的“环状”GH19 几丁质酶进行完全亚基作图。

Complete subsite mapping of a "loopful" GH19 chitinase from rye seeds based on its crystal structure.

机构信息

Department of Advanced Bioscience, Kinki University, 3327-204 Nakamachi, Nara 631-8505, Japan.

出版信息

FEBS Lett. 2013 Aug 19;587(16):2691-7. doi: 10.1016/j.febslet.2013.07.008. Epub 2013 Jul 18.

DOI:10.1016/j.febslet.2013.07.008

Abstract

Crystallographic analysis of a mutated form of "loopful" GH19 chitinase from rye seeds a double mutant RSC-c, in which Glu67 and Trp72 are mutated to glutamine and alanine, respectively, (RSC-c-E67Q/W72A) in complex with chitin tetrasaccharide (GlcNAc)₄ revealed that the entire substrate-binding cleft was completely occupied with the sugar residues of two (GlcNAc)₄ molecules. One (GlcNAc)₄ molecule bound to subsites -4 to -1, while the other bound to subsites +1 to +4. Comparisons of the main chain conformation between liganded RSC-c-E67Q/W72A and unliganded wild type RSC-c suggested domain motion essential for catalysis. This is the first report on the complete subsite mapping of GH19 chitinase.

摘要

晶体学分析来自黑麦种子的“环化”GH19 几丁质酶的突变体形式与壳四糖（GlcNAc）₄复合物中的双突变体 RSC-c，其中 Glu67 和 Trp72 分别突变为谷氨酰胺和丙氨酸（RSC-c-E67Q/W72A）表明整个底物结合裂隙完全被两个（GlcNAc）₄分子的糖残基占据。一个（GlcNAc）₄分子结合到-4 到-1 亚基，而另一个结合到+1 到+4 亚基。配体结合的 RSC-c-E67Q/W72A 和未配体结合的野生型 RSC-c 的主链构象比较表明了催化所必需的结构域运动。这是 GH19 几丁质酶完整亚基作图的首次报道。

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基于其晶体结构对黑麦种子中的“环状”GH19 几丁质酶进行完全亚基作图。

Complete subsite mapping of a "loopful" GH19 chitinase from rye seeds based on its crystal structure.

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