Yamada H, Imoto T, Noshita S
Biochemistry. 1982 Apr 27;21(9):2187-92. doi: 10.1021/bi00538a030.
The reaction of lysozyme with ethylenimine has been studied at neutral and acidic pH. At least four singly modified lysozyme derivatives have been isolated. From the product analyses, only carboxyl groups in the protein were found to react. One of the derivatives, 1, was very labile and reverted back to native lysozyme during the isolation procedure. Its formation was markedly inhibited by the presence of tri(N-acetyl-D-glucosamine), indicating that the modified carboxyl residue in 1 is at or close to the binding site of lysozyme for the trisaccharide. Two other derivatives were identified as 2-aminoethyl esters of Glu-35 (2) and Asp-52 (3). At pH 10 and room temperature, these derivatives rearranged to the corresponding 2-hydroxyethylamide derivatives (5 and 6). A fourth derivative (4) did not contain an ethanolamine moiety; nevertheless, its Glu-35 was found to be modified by sequence analysis. Lysozyme derivatives modified at Glu-35 and Asp-52 were inactive toward glycol chitin but retained high affinity for tri(N-acetyl-D-glucosamine). Thus, Glu-35 and Asp-52 are essential for enzyme activity. A mechanism for the selective modification of these carboxyl residues in lysozyme has been proposed and related to the metal binding ability of lysozyme.
已在中性和酸性pH条件下研究了溶菌酶与乙二胺的反应。已分离出至少四种单修饰的溶菌酶衍生物。通过产物分析发现,蛋白质中只有羧基发生了反应。其中一种衍生物1非常不稳定,在分离过程中会恢复为天然溶菌酶。三(N-乙酰-D-葡萄糖胺)的存在显著抑制了它的形成,这表明衍生物1中修饰的羧基残基位于溶菌酶与三糖的结合位点处或附近。另外两种衍生物被鉴定为Glu-35(2)和Asp-52(3)的2-氨基乙酯。在pH 10和室温下,这些衍生物重排为相应的2-羟乙酰胺衍生物(5和6)。第四种衍生物(4)不含乙醇胺部分;然而,通过序列分析发现其Glu-35被修饰。在Glu-35和Asp-52处修饰的溶菌酶衍生物对乙二醇几丁质无活性,但对三(N-乙酰-D-葡萄糖胺)仍保持高亲和力。因此,Glu-35和Asp-52对酶活性至关重要。已提出了一种溶菌酶中这些羧基残基选择性修饰的机制,并将其与溶菌酶的金属结合能力相关联。
