Effect of mutations to amino acid A301 and F361 in thermostability and catalytic activity of the β-galactosidase from Bacillus subtilis VTCC-DVN-12-01.

Q2 Biochemistry, Genetics and Molecular Biology BMC Biochemistry Pub Date : 2016-07-08 DOI:10.1186/s12858-016-0070-0

Thao Thi Nguyen, Hanh Van Vu, Nhung Thi Hong Nguyen, Tuyen Thi Do, Thanh Sy Le Nguyen

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引用次数: 3

Abstract

Background: Beta-galactosidase (EC 3.2.1.23), a commercially important enzyme, catalyses the hydrolysis of β-1,3- and β-1,4-galactosyl bonds of polymer or oligosaccharidesas well as transglycosylation of β-galactopyranosides. Due to catalytic properties; β-galactosidase might be useful in the milk industry to hydrolyze lactose and produce prebiotic GOS. The purpose of this study is to characterize β-galactosidase mutants from B. subtilis.

Results: Using error prone rolling circle amplification (epRCA) to characterize some random mutants of the β-galactosidase (LacA) from B. subtilisVTCC-DVN-12-01, amino acid A301 and F361 has been demonstrated significantly effect on hydrolysis activity of LacA. Mutants A301V and F361Y had markedly reduced hydrolysis activity to 23.69 and 43.22 %, respectively. Mutants the site-saturation of A301 reduced catalysis efficiency of LacA to 20-50 %, while the substitution of F361 by difference amino acids (except tyrosine) lost all of enzymatic activity, indicating that A301 and F361 are important for the catalytic function. Interestingly, the mutant F361Y exhibited enhanced significantly thermostability of enzyme at 45-50 °C. At 45 °C, LacA-361Y retained over 93 % of its original activity for 48 h of incubation, whereas LacA-WT and LacA-301Vwere lost completely after 12 and 24 h of incubation, respectively. The half-life times of LacA-361Y and LacA-301 V were about 26.8 and 2.4 times higher, respectively, in comparison to the half-life time of LacA-WT. At temperature optimum 50 °C, LacA-361Y shows more stable than LacA-WT and LacA-301 V, retaining 79.88 % of its original activities after 2 h of incubation, while the LacA-WT and LacA-301 V lost all essential activities. The half-life time of LacA-361Y was higher 12.7 and 9.39 times than that of LacA-WT and LacA-301 V, respectively. LacA-WT and mutant enzymes were stability at pH 5-9, retained over 90 % activity for 72 h of incubation at 30 °C. However, LacA-WT showed a little bit more stability than LacA-301 V and LacA-361Y at pH 4.

Conclusions: Our findings demonstrated that the amino acids A301V and F361 play important role in hydrolysis activity of β -galactosidase from B. subtilis. Specially, amino acid F361 had noteworthy effect on both catalytic and thermostability of LacA enzyme, suggesting that F361 is responsible for functional requirement of the GH42 family.

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氨基酸A301和F361突变对枯草芽孢杆菌VTCC-DVN-12-01 β-半乳糖苷酶热稳定性和催化活性的影响

背景:β-半乳糖苷酶(EC 3.2.1.23)是一种重要的商业酶，可催化聚合物或低聚糖中β-1,3-和β-1,4-半乳糖键的水解以及β-半乳糖苷的转糖基化。由于催化性能;β-半乳糖苷酶可能在牛奶工业中用于水解乳糖和生产益生元GOS。本研究的目的是表征枯草芽孢杆菌β-半乳糖苷酶突变体。结果:利用易错滚圈扩增技术(error - prone rolling circle amplification, epRCA)对枯草芽孢杆菌(B. subtilisVTCC-DVN-12-01) β-半乳糖苷酶(LacA)的随机突变体进行鉴定，发现氨基酸A301和F361对LacA的水解活性有显著影响。突变体A301V和F361Y的水解活性分别显著降低至23.69%和43.22%。突变体A301位点饱和使LacA的催化效率降低到20- 50%，而F361被不同的氨基酸取代(酪氨酸除外)失去了所有的酶活性，这表明A301和F361对催化功能很重要。有趣的是，突变体F361Y在45-50°C时表现出显著增强的酶热稳定性。在45°C条件下，LacA-361Y在孵育48 h后仍保持93%以上的活性，而LacA-WT和laca - 301v分别在孵育12和24 h后完全丧失活性。LacA-361Y和LacA-301 V的半衰期分别是LacA-WT的26.8倍和2.4倍。在最适温度为50℃时，LacA-361Y比LacA-WT和LacA-301 V更稳定，孵育2 h后仍保留了79.88%的活性，而LacA-WT和LacA-301 V失去了全部必需活性。LacA-361Y的半衰期分别是LacA-WT和LacA-301 V的12.7倍和9.39倍。LacA-WT和突变体酶在pH 5-9时稳定，在30°C下孵育72小时保持90%以上的活性。在pH值为4时，LacA-WT的稳定性略高于LacA-301 V和LacA-361Y。结论:氨基酸A301V和F361在枯草芽孢杆菌β -半乳糖苷酶的水解活性中起重要作用。其中，氨基酸F361对LacA酶的催化和热稳定性均有显著影响，说明F361对GH42家族的功能需求起着重要作用。

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来源期刊

BMC Biochemistry BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

4.80

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： BMC Biochemistry is an open access journal publishing original peer-reviewed research articles in all aspects of biochemical processes, including the structure, function and dynamics of metabolic pathways, supramolecular complexes, enzymes, proteins, nucleic acids and small molecular components of organelles, cells and tissues. BMC Biochemistry (ISSN 1471-2091) is indexed/tracked/covered by PubMed, MEDLINE, BIOSIS, CAS, EMBASE, Scopus, Zoological Record, Thomson Reuters (ISI) and Google Scholar.