CRYSTAL-STRUCTURE TO 2.45 ANGSTROM RESOLUTION OF A MONOCLONAL FAB SPECIFIC FOR THE BRUCELLA-A CELL-WALL POLYSACCHARIDE ANTIGEN

被引：56

作者：

ROSE, DR

PRZYBYLSKA, M

TO, RJ

KAYDEN, CS

OOMEN, RP

VORBERG, E

YOUNG, NM

BUNDLE, DR

机构：

[1] CONNAUGHT LABS,N YORK M2R 3T4,ON,CANADA

[2] UNIV TORONTO,DEPT MED BIOPHYS,TORONTO M4X 1K9,ONTARIO,CANADA

[3] NATL RES COUNCIL CANADA,INST BIOL SCI,OTTAWA K1A 0R6,ONTARIO,CANADA

来源：

PROTEIN SCIENCE | 1993年 / 2卷 / 07期

关键词：

ANTIBODY; CARBOHYDRATE; CELL-SURFACE ANTIGEN; CRYSTALLOGRAPHY; FAB;

D O I：

10.1002/pro.5560020705

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：

The atomic structure of an antibody antigen-binding fragment (Fab) at 2.45 angstrom resolution shows that polysaccharide antigen conformation and Fab structure dictated by combinatorial diversity and domain association are responsible for the fine specificity of the Brucella-specific antibody, YsT9.1. It discriminates the Brucella abortus A antigen from the nearly identical Brucella melitensis M antigen by forming a groove-type binding site, lined with tyrosine residues, that accommodates the rodlike A antigen but excludes the kinked structure of the M antigen, as envisioned by a model of the antigen built into the combining site. The variable-heavy (V(H)) and variable-light (V(L)) domains are derived from genes closely related to two used in previously solved structures, M603 and R19.9, respectively. These genes combine in YsT9.1 to form an antibody of totally different specificity. Comparison of this X-ray structure with a previously built model of the YsT9.1 combining site based on these homologies highlights the importance of V(L):V(H) association as a determinant of specificity and suggests that small changes at the V(L):V(H) interface, unanticipated in modeling, may cause significant modulation of binding-site properties.

引用

页码：1106 / 1113

页数：8

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