Molecular Characterization and Directed Evolution of a Metagenome-Derived l-Cysteine Sulfinate Decarboxylase

Jie Deng; Qiaofen Wu; Hua Gao; Qian Ou; Bo Wu; Bing Yan; Chengjian Jiang

doi:10.17113/ftb.56.01.18.5415

Food Technology and Biotechnology (Jan 2018)

Molecular Characterization and Directed Evolution of a Metagenome-Derived l-Cysteine Sulfinate Decarboxylase

Jie Deng,
Qiaofen Wu,
Hua Gao,
Qian Ou,
Bo Wu,
Bing Yan,
Chengjian Jiang

Affiliations

Jie Deng: Guangxi Key Laboratory of Mangrove Conservation and Utilization, Guangxi Mangrove Research Center, Guangxi Academy of Sciences
Qiaofen Wu: State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Life Science and Technology
Hua Gao: State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Life Science and Technology
Qian Ou: State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Life Science and Technology
Bo Wu: State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, College of Life Science and Technology
Bing Yan: Guangxi Key Laboratory of Mangrove Conservation and Utilization, Guangxi Mangrove Research Center, Guangxi Academy of Sciences
Chengjian Jiang: Guangxi Key Laboratory of Mangrove Conservation and Utilization, Guangxi Mangrove Research Center, Guangxi Academy of Sciences

DOI: https://doi.org/10.17113/ftb.56.01.18.5415
Journal volume & issue: Vol. 56, no. 1
pp. 117 – 123

Abstract

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L-Cysteine sulfinate decarboxylase (CSD, EC 4.1.1.29), the rate-limiting enzyme in taurine synthesis pathway, catalyzes L-cysteine sulfinic acid to form hypotaurine. Identification of the novel CSD that could improve the biosynthetic efficiency of taurine is important. An unexplored decarboxylase gene named undec1A was identified in a previous work through sequence-based screening of uncultured soil microorganisms. Random mutagenesis through sequential error-prone polymerase chain reaction was used in Undec1A. A mutant Undec1A-1180, which was obtained from mutagenesis library, had 5.62-fold higher specific activity than Undec1A at 35 °C and pH=7.0. Molecular docking results indicated that amino acid residues Ala235, Val237, Asp239, Ile267, Ala268, and Lys298 in the Undec1A-1180 protein helped recognize and catalyze the substrate molecules of L-cysteine sulfinic acid. These results could serve as a basis for elucidating the characteristics of the Undec1A-1180. Directed evolution technology is a convenient way to improve the biotechnological applications of metagenome-derived genes.

Published in Food Technology and Biotechnology

ISSN: 1330-9862 (Print); 1334-2606 (Online)
Publisher: University of Zagreb Faculty of Food Technology and Biotechnology
Country of publisher: Croatia
LCC subjects: Technology: Chemical technology: Biotechnology; Technology: Chemical technology: Food processing and manufacture
Website: https://www.ftb.com.hr/

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