来自红球菌属菌株OA1的具有水杨醛脱氢酶活性的新型乙醛脱氢酶。

A Novel Acetaldehyde Dehydrogenase with Salicylaldehyde Dehydrogenase Activity from Rhodococcus ruber Strain OA1.

作者信息

Wang Zhenglong, Sun Ying, Li Xiaodan, Hu Haoran, Zhang Chunyang

机构信息

School of Life Science, Shandong University of Technology, NO.12, Zhangzhou Road, Zhangdian district, Zibo, 255049, China.

出版信息

Curr Microbiol. 2017 Dec;74(12):1404-1410. doi: 10.1007/s00284-017-1333-8. Epub 2017 Aug 28.

DOI:10.1007/s00284-017-1333-8

PMID:28849423

Abstract

Salicylaldehyde dehydrogenase (sALDH) can oxidize salicylaldehyde, which is an intermediate in the naphthalene catabolism in bacteria. However, genes encoding sALDH have not been discovered so far in Rhodococcus. Here, we report the discovery of a novel aldehyde dehydrogenase (ALDH) gene in the naphthalene degrader Rhodococcus ruber OA1 based on phylogenetic analysis. Interestingly, apart from ALDH activity, ALDH of R. ruber OA1 (OA1-ALDH) also showed sALDH activity. Moreover, its sALDH specific activity was higher than its ALDH specific activity. Based on a comparison with the ALDH of Thermomonospora curvata DSM 43,183, a putative active site Cys123 and NAD binding site Asn263 were proposed in R. ruber OA1. Multiple alignment of OA1-ALDH with ALDHs from other organisms indicated that the residues Ser122 and Ala124 might influence the enzyme activity and substrate specificity that render OA1-ALDH the ability to catalyze salicylaldehyde better than acetaldehyde. These results support the possibility that OA1-ALDH plays the role of sALDH in the oxidation of salicylaldehyde to salicylate in R. ruber OA1. In summary, our study would contribute to the understanding of the structure and roles of ALDH in Rhodococcus.

摘要

水杨醛脱氢酶（sALDH）能够氧化水杨醛，水杨醛是细菌中萘分解代谢的一种中间产物。然而，迄今为止在红球菌属中尚未发现编码sALDH的基因。在此，我们基于系统发育分析报告了在萘降解菌红平红球菌OA1中发现的一种新型醛脱氢酶（ALDH）基因。有趣的是，除了具有ALDH活性外，红平红球菌OA1的ALDH（OA1-ALDH）还表现出sALDH活性。此外，其sALDH比活性高于其ALDH比活性。通过与弯曲嗜热单孢菌DSM 43183的ALDH进行比较，在红平红球菌OA1中提出了一个推定的活性位点Cys123和NAD结合位点Asn263。OA1-ALDH与其他生物体的ALDH的多重比对表明，Ser122和Ala124残基可能影响酶活性和底物特异性，使OA1-ALDH催化水杨醛的能力优于乙醛。这些结果支持了OA1-ALDH在红平红球菌OA1中将水杨醛氧化为水杨酸盐过程中发挥sALDH作用的可能性。总之，我们的研究将有助于理解红球菌属中ALDH的结构和作用。

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来自红球菌属菌株OA1的具有水杨醛脱氢酶活性的新型乙醛脱氢酶。

A Novel Acetaldehyde Dehydrogenase with Salicylaldehyde Dehydrogenase Activity from Rhodococcus ruber Strain OA1.

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