Oyama Hiroshi, Hamada Takatoshi, Ogasawara Shin, Uchida Kenichi, Murao Sawao, Beyer Bret B, Dunn Ben M, Oda Kohei
Department of Applied Biology, Faculty of Textile Science, Kyoto Institute of Technology, Matsugasaki, Sakyo-ku, Kyoto 606-8585, Japan.
J Biochem. 2002 May;131(5):757-65. doi: 10.1093/oxfordjournals.jbchem.a003162.
The gene encoding kumamolysin, a thermostable pepstatin-insensitive carboxyl proteinase, was cloned and expressed. (i) Kumamolysin was synthesized as a large precursor consisting of two regions: amino-terminal prepro (188 amino acids) and mature proteins (384 amino acids). (ii) The deduced amino acid sequence of the mature region exhibited high similarity to those of such bacterial pepstatin-insensitive enzymes as Pseudomonas carboxyl proteinase (PSCP; EC 3.4.23.37, identity = 37%), Xanthomonas carboxyl proteinase (XCP; EC 3.4.23.33, identity = 36%), and human CLN2 gene product (identity = 36%), which is related to a fatal neurodegenerative disease. (iii) The presumed catalytic triad, Glu78, Asp82, Ser278 [three-dimensional structure of PSCP: Wlodawer, A. et al. (2001) Nature Struct. Biol., 8, 442-446], was found to be conserved in the amino acid sequence of kumamolysin. (iv) Kumamolysin was inactivated by such aldehyde-type inhibitors as Ac-Ile-Pro-Phe-CHO (K(i) = 0.7 0.14 microM). In PSCP, it has been clarified that these inhibitors form a hemiacetal linkage with the catalytic serine residue and inactivate the enzyme. (v) Mutational analysis of the Ser278 residue revealed that the mutant lost both auto-processing activity and proteolytic activity. These results strongly suggest that kumamolysin has a unique catalytic triad consisting of Glu78, Asp82, and Ser278 residues, as previously observed for PSCP.
编码熊蜂溶素(一种热稳定的、对胃蛋白酶抑制剂不敏感的羧基蛋白酶)的基因被克隆并表达。(i)熊蜂溶素作为一种由两个区域组成的大前体合成:氨基末端前原(188个氨基酸)和成熟蛋白(384个氨基酸)。(ii)成熟区域推导的氨基酸序列与诸如假单胞菌羧基蛋白酶(PSCP;EC 3.4.23.37,一致性 = 37%)、黄单胞菌羧基蛋白酶(XCP;EC 3.4.23.33,一致性 = 36%)以及与一种致命神经退行性疾病相关的人CLN2基因产物(一致性 = 36%)等细菌胃蛋白酶抑制剂不敏感酶的氨基酸序列具有高度相似性。(iii)推测的催化三联体Glu78、Asp82、Ser278 [PSCP的三维结构:Wlodawer, A.等人(2001年)《自然结构生物学》,8,442 - 446] 被发现在熊蜂溶素的氨基酸序列中是保守的。(iv)熊蜂溶素被诸如Ac - Ile - Pro - Phe - CHO(K(i) = 0.7 ± 0.14 μM)等醛类抑制剂失活。在PSCP中,已经阐明这些抑制剂与催化丝氨酸残基形成半缩醛键并使酶失活。(v)Ser278残基的突变分析表明,该突变体失去了自加工活性和蛋白水解活性。这些结果有力地表明,熊蜂溶素具有一个由Glu78、Asp82和Ser278残基组成的独特催化三联体,正如之前在PSCP中观察到的那样。
