Olafson R W, Jurásek L, Carpenter M R, Smillie L B
Biochemistry. 1975 Mar 25;14(6):1168-77. doi: 10.1021/bi00677a011.
Information compiled by automatic Edman degradation of Streptomyces griseus trypsin coupled with previous data has permitted the assignment of the first 36 residues at the NH2 terminus of the protein. Cyanogen bromide cleavage at the three methionine residues followed or preceded by reduction and aminoethylation resulted in the production of four fragments, Cnl to Cn4, which were separated by gel filtration on Sephadex G-50 or G-75. Fragments CN4 (15 RESIDUES) AND Cn3 (5 residues) were shown to be derived from the NH2 terminus of the protein while Cn2 (47 residues and devoid of homoserine) was from the COOH terminus. The arrangement of the fragments was thus Cn4-Cn3-Cn1-Cn2. Automatic Edman degradation in the sequenator coupled with peptides derived from alpha-lytic protease and chymotryptic digestion and from the peptic and tryptic peptides previously elucidated have permitted the sequence determination of fragments Cn1 and Cn2 and therefore of the whole protein. These studies show that extensive regions of identity or similarity exist between Streptomyces griseus trypsin and bovine trypsin. These include the NH2-terminal four residues, the sequences near histidine-57 (chymotrypsinogen A numbering system), aspartic acid-102, aspartic acid-189, and serine-195, the regions of the three disulfide bridges, and the COOH-terminal end (residues 225-229) of the proteins. When aligned to maximize homology the identity of residues is 34%. This identity is increased to 54% when only those residues classified as internal by Stroud et al. (Stroud, R. M., Kay, L. M., and Dickerson, R. E. (1971) Cold Spring Harbor Symp. Quant. Biol. 36, 125) are considered. These results indicate that the folding of the polypeptide chains of the two enzymes is very similar and are in agreement with the very similar enzymic, chemical, and physical properties of the two enzymes.
通过对灰色链霉菌胰蛋白酶进行自动埃德曼降解并结合先前的数据,已确定了该蛋白质NH2末端的前36个残基。在三个甲硫氨酸残基处进行溴化氰裂解,裂解之前或之后进行还原和氨乙基化,产生了四个片段,Cn1至Cn4,通过在Sephadex G - 50或G - 75上进行凝胶过滤将它们分离。片段CN4(15个残基)和Cn3(5个残基)显示来自蛋白质的NH2末端,而Cn2(47个残基且不含高丝氨酸)来自COOH末端。因此,片段的排列顺序为Cn4 - Cn3 - Cn1 - Cn2。在序列分析仪中进行自动埃德曼降解,结合来自α - 裂解蛋白酶、胰凝乳蛋白酶消化以及先前阐明的胃蛋白酶和胰蛋白酶肽段的肽段,已确定了片段Cn1和Cn2的序列,从而确定了整个蛋白质的序列。这些研究表明,灰色链霉菌胰蛋白酶和牛胰蛋白酶之间存在广泛的相同或相似区域。这些区域包括NH2末端的四个残基、组氨酸 - 57(胰凝乳蛋白酶原A编号系统)、天冬氨酸 - 102、天冬氨酸 - 189和丝氨酸 - 195附近的序列、三个二硫键的区域以及蛋白质的COOH末端(残基225 - 229)。当进行比对以最大化同源性时,残基的同一性为34%。当仅考虑那些被Stroud等人(Stroud, R. M., Kay, L. M., and Dickerson, R. E. (1971) Cold Spring Harbor Symp. Quant. Biol. 36, 125)归类为内部残基时,这种同一性增加到54%。这些结果表明两种酶的多肽链折叠非常相似,并且与两种酶非常相似的酶学、化学和物理性质一致。
