INFLUENZA-B VIRUS NEURAMINIDASE CAN SYNTHESIZE ITS OWN INHIBITOR

被引：132

作者：

BURMEISTER, WP

HENRISSAT, B

BOSSO, C

CUSACK, S

RUIGROK, RWH

机构：

[1] ILL GRENOBLE, EMBL, GRENOBLE OUTSTN, F-38042 GRENOBLE 9, FRANCE

[2] CTR RECH MACROMOLEC VEGETALES, CNRS, F-38041 GRENOBLE, FRANCE

来源：

STRUCTURE | 1993年 / 1卷 / 01期

关键词：

ENZYMATIC MECHANISM; INFLUENZA B NEURAMINIDASE; MASS-SPECTROMETRY; SIALIC ACID; X-RAY STRUCTURE;

D O I：

10.1016/0969-2126(93)90005-2

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Background: Neuraminidase, one of the mio surface glycoproteins of influenza virus, cleaves terminal sialic acid residues from glycolipids or glycoproteins. Its crystal structure is known at high resolution, but the mechanism of glycosyl hydrolysis remains unclear. Results: We have determined the crystal structure at 1.8 Angstrom resolution of two complexes of influenza B/Beijing neuraminidase containing either the reaction product, sialic acid, or the transition state analogue inhibitor, 2,3-dehydro-2-deoxy-N-acetylneuraminic acid (DANA). The sialic acid is bound in a distorted 'boat' conformation closely resembling that of bound DANA, stabilized by a conserved tyrosine residue (Tyr408). This distortion also gives rise to a suicidal side reaction that converts sialic acid to DANA at a low rate. Conclusions: The mechanism of neuraminidase action is distinct from that of other known glycosyl hydrolases. Substrate distortion appears to be the driving force in glycosyl bond hydrolysis and the proton required for catalysis can probably be donated by water, rather than by residues in the active site, thus allowing the enzyme to operate at high pH. The side reaction converting sialic acid to DANA appears reasonably favourable, and it is unclear how this is minimized by the enzyme.

引用

页码：19 / 26

页数：8

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