Arylamidase activity of neutral proteinase from Saccharomonospora canescens. Comparison with other Zn-proteinases that exhibit the same activity

Maya Guncheva, Pavlina Dolashka-Angelova, Nicolina Stambolieva
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引用次数: 4

Abstract

The arylamidase activity of Zn-proteinase from Saccharomonospora canescens (NPS) was studied with series of peptide nitroanilides of varying amino acid sequence and N-acyl blocking groups. The partial mapping of the enzyme S1, S2, S3, S4 subsites shows that variations in all positions P1 to P4 in the substrate structure affect the catalytic efficiency. The importance of P4–S4 and P1–S1 interactions, which is a characteristic feature of the serine proteinases, is evidenced for the studied Zn-proteinases NPS and serralysin too. The presence of arylamidase activity in the case of Zn-proteinases—astacin EC 3.4.24.21 and serralysin EC 3.4.24.40 is correlated with some specific characteristics of their active site structure: penta-coordinated Zn2+ and a tyrosyl residue as a fifth ligand to the Zn2+. It is assumed that this tyrosyl residue plays a role in the productive binding and stabilization of the tetrahedral adduct formed during the reaction of enzyme-catalysed hydrolysis of peptide arylamides of corresponding length and sequence.

甘蔗糖单孢菌中性蛋白酶芳酰胺酶活性研究。与其他具有相同活性的锌蛋白酶的比较
采用一系列不同氨基酸序列和n-酰基阻断基团的肽硝基苯胺对甘蔗糖单孢菌(Saccharomonospora canescens, NPS)锌蛋白酶芳基酰胺酶活性进行了研究。酶S1、S2、S3、S4亚位的部分定位表明,底物结构中P1至P4位置的变化会影响催化效率。P4-S4和P1-S1相互作用的重要性是丝氨酸蛋白酶的一个特征,这在研究的锌蛋白酶NPS和seralysin中也得到了证明。锌蛋白酶(astacin EC 3.4.24.21和seralysin EC 3.4.24.40)中芳基酰胺酶活性的存在与它们活性位点结构的某些特定特征有关:五配位Zn2+和作为Zn2+第五配体的酪氨酸残基。假设该酪氨酸残基在酶催化水解相应长度和序列的肽芳酰胺反应过程中形成的四面体加合物的生产结合和稳定中起作用。
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