Degradation and detoxification of azo dyes by a salt-tolerant yeast Emphasis Type='Italic'>Cyberlindnera samutprakarnensis/Emphasis> S4 under high-salt conditions

Zhiyong Song; Li Song; Yifan Shao; Liang Tan

首页> 外文期刊>World Journal of Microbiology & Biotechnology >Degradation and detoxification of azo dyes by a salt-tolerant yeast Emphasis Type='Italic'>Cyberlindnera samutprakarnensis/Emphasis> S4 under high-salt conditions

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Degradation and detoxification of azo dyes by a salt-tolerant yeast Emphasis Type='Italic'>Cyberlindnera samutprakarnensis/Emphasis> S4 under high-salt conditions

机译：耐盐酵母氮杂染料的降解和解毒。在高盐条件下，强调型=“斜体”> Cyber Lindnera Samutprakarnensis＆ /重点> S4

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A new yeast strain which was capable of degrading various azo dyes under high-salt conditions was identified in this study. The results showed that the yeast named S4 was identified as Cyberlindnera samutprakarnensis through 26S rDNA sequence analysis and could decolorize more than 97% of Acid Red B (ARB) within 18?h under the optimal conditions. The acute toxicity of ARB sharply decreased after degradation. NADH–DCIP reductase and lignin peroxidase were determined as the key reductase and oxidase of the yeast S4, respectively. Furthermore, it was proposed that ARB was degraded by strain S4 successively through reduction of azo bonds, hydroxylation, deamination, desulfonation and finally to the TCA cycle.

机译：在本研究中确定了一种能够在高盐条件下降解各种偶氮染料的新酵母菌株。结果表明，通过26s的RDNA序列分析鉴定为Cyber Lindnera Samutprakarnensis的酵母被鉴定为Cyber Lindnera Samutprakarnensis，并且在最佳条件下可以将大于97％的酸红b（arb）脱色。降解后，Arb的急性毒性大大降低。将NADH-DCIP还原酶和木质素过氧化物酶分别被确定为酵母S4的关键还原酶和氧化酶。此外，提出了通过将偶氮键，羟基化，脱氨环化，脱硫和最终递减到TCA循环的菌株S4通过菌株S4降解arb。

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来源
《World Journal of Microbiology & Biotechnology》 |2018年第9期|共13页
作者
Zhiyong Song; Li Song; Yifan Shao; Liang Tan;
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作者单位

School of Civil and Environmental Engineering University of Science and Technology Beijing;

School of Life Science Liaoning Normal University;

School of Life Science Liaoning Normal University;

School of Life Science Liaoning Normal University;

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正文语种 other
中图分类微生物学;
关键词
Azo dye; Cyberlindnera samutprakarnensis; Salt-tolerant; Degradation pathways; Enzyme analysis;

机译：氮杂染料;Cyber Lindnera Samutprakarnensis;耐盐;降解途径;酶分析;

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1. Degradation and detoxification of azo dyes by a salt-tolerant yeast Emphasis Type="Italic">Cyberlindnera samutprakarnensis/Emphasis> S4 under high-salt conditions [J] . Zhiyong Song, Li Song, Yifan Shao, World Journal of Microbiology & Biotechnology . 2018,第9期

机译：耐盐酵母氮杂染料的降解和解毒。在高盐条件下，强调型=“斜体”> Cyber Lindnera Samutprakarnensis＆ /重点> S4
2. Erratum to: Study of B c + decays to the K + K ? π + final state by using B s 0 , χ c0 and D 0 resonances and weak annihilation nonresonant topologys [J] . Behnam Mohammadi The journal of high energy physics . 2018,第5期

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5. Biological and chemical degradation of azo dyes under aerobic conditions. [D] . Spadaro, Jack Thomas. 1994

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机译：用于氮杂染料脱色和排毒的新分离的耐盐酵母菌菌株菌株STIGMATOMYCESSSA-1575

Degradation and detoxification of azo dyes by a salt-tolerant yeast Emphasis Type='Italic'>Cyberlindnera samutprakarnensis/Emphasis> S4 under high-salt conditions

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