Sørensen S B, Breddam K
Carlsberg Laboratory, Department of Chemistry, Copenhagen Valby, Denmark.
Protein Sci. 1997 Oct;6(10):2227-32. doi: 10.1002/pro.5560061017.
The S'1 binding pocket of carboxypeptidase Y is hydrophobic, spacious, and open to solvent, and the enzyme exhibits a preference for hydrophobic P'1 amino acid residues. Leu272 and Ser297, situated at the rim of the pocket, and Leu267, slightly further away, have been substituted by site-directed mutagenesis. The mutant enzymes have been characterized kinetically with respect to their P'1 substrate preferences using the substrate series FA-Ala-Xaa-OH (Xaa = Leu, Glu, Lys, or Arg) and FA-Phe-Xaa-OH (Xaa = Ala, Val, or Leu). The results reveal that hydrophobic P'1 residues bind in the vicinity of residue 272 while positively charged P'1 residues interact with Ser297. Introduction of Asp or Glu at position 267 greatly reduced the activity toward hydrophobic P'1 residues (Leu) and increased the activity two- to three-fold for the hydrolysis of substrates with Lys or Arg in P'1. Negatively charged substituents at position 272 reduced the activity toward hydrophobic P'1 residues even more, but without increasing the activity toward positively charged P'1 residues. The mutant enzyme L267D + L272D was found to have a preference for substrates with C-terminal basic amino acid residues. The opposite situation, where the positively charged Lys or Arg were introduced at one of the positions 267, 272, or 297, did not increase the rather low activity toward substrates with Glu in the P'1 position but greatly reduced the activity toward substrates with C-terminal Lys or Arg due to electrostatic repulsion. The characterized mutant enzymes exhibit various specificities, which may be useful in C-terminal amino acid sequence determinations.
羧肽酶Y的S'1结合口袋具有疏水性、空间宽敞且向溶剂开放,该酶对疏水性P'1氨基酸残基表现出偏好。位于口袋边缘的Leu272和Ser297以及稍远一点的Leu267已通过定点诱变进行了替换。使用底物系列FA-Ala-Xaa-OH(Xaa = Leu、Glu、Lys或Arg)和FA-Phe-Xaa-OH(Xaa = Ala、Val或Leu),对突变酶的P'1底物偏好进行了动力学表征。结果表明,疏水性P'1残基结合在272位残基附近,而带正电荷的P'1残基与Ser297相互作用。在267位引入Asp或Glu大大降低了对疏水性P'1残基(Leu)的活性,并使P'1中带有Lys或Arg的底物水解活性提高了两到三倍。272位的带负电荷取代基进一步降低了对疏水性P'1残基的活性,但没有增加对带正电荷P'1残基的活性。发现突变酶L267D + L272D对具有C端碱性氨基酸残基的底物有偏好。相反的情况是,在267、272或297位之一引入带正电荷的Lys或Arg,并没有增加对P'1位置带有Glu的底物相当低的活性,反而由于静电排斥大大降低了对带有C端Lys或Arg的底物的活性。所表征的突变酶表现出各种特异性,这可能在C端氨基酸序列测定中有用。