Baumann U, Bauer M, Létoffé S, Delepelaire P, Wandersman C
Institut für Organische Chemie und Biochemie der Universität, Freiburg, Germany.
J Mol Biol. 1995 May 5;248(3):653-61. doi: 10.1006/jmbi.1995.0249.
The crystal structure of the complex between the 50 kDa metallo-endoproteinase from Serratia marcescens (SMP), a member of the metzincin superfamily, and an inhibitor from Erwinia chrysanthemi (Inh) was solved by molecular replacement using the known structure of SMP, and refined at 2.30 A resolution to a crystallographic R-factor of 0.195. The E. chrysanthemi inhibitor folds into a compact eight-stranded antiparallel beta-barrel of simple up-down topology such as is found for members of the retinol binding protein family. It mainly interacts with the protease via its five N-terminal residues, which insert into the active site cleft, occupying the S' sites. The first N-terminal residue, SerI1, is partially cleaved off by the protease, while SerI2 makes a hydrogen bond with the catalytically active glutamic acid, Glu177, of the protease. Further interactions are made between one face of the inhibitor formed by the strands s3, s4 and s5 and the protease segment 218 to 228, which is located immediately after the characteristic "Met-turn" of the metzincins.
粘质沙雷氏菌(SMP)50 kDa金属内蛋白酶(属于金属锌蛋白酶超家族成员)与菊欧文氏菌抑制剂(Inh)复合物的晶体结构,通过分子置换法利用已知的SMP结构解析得到,并在2.30 Å分辨率下精修至晶体学R因子为0.195。菊欧文氏菌抑制剂折叠成一个紧凑的由八条链组成的简单上下拓扑结构的反平行β桶状结构,类似于视黄醇结合蛋白家族成员的结构。它主要通过其五个N端残基与蛋白酶相互作用,这些残基插入活性位点裂隙,占据S'位点。第一个N端残基SerI1被蛋白酶部分切割掉,而SerI2与蛋白酶具有催化活性的谷氨酸Glu177形成氢键。抑制剂由链s3、s4和s5形成的一个面与蛋白酶位于金属锌蛋白酶特征性“Met转角”之后的218至228片段之间还存在进一步的相互作用。
