Identification of Mitogen-activated Protein Kinase from Schizochytrium sp. and Application in Resisting Stress Environments

IF 1 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
C. Du, J. Jiang, X. Hu, L. Ren
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引用次数: 0

Abstract

Schizochytrium sp. is a marine fungus, which usually lives in the salinity of 40–100% seawater and has unique salt tolerance characteristics. In this study, we explored the candidate mitogen-activated protein kinase (MAPK) related to the salt-tolerant regulatory network from Schizochytrium sp. Firstly, 6 potential MAPK genes from Schizochytrium sp. were identified based on the genome information and bioinformatics analysis. Then, the MAPK gene expression of Schizochytrium sp. under different cultivation conditions locked two genes encoding Mpk6315 and Mpk2022. Furthermore, overexpressing of Mpk6315 in S. cerevisiae enhanced cell growth by 62% while and Mpk2022 overexpression improved the membrane integrity under different stress conditions, indicating that Mpk6315 might play an important role for cell growth and Mpk2022 could help cells to encounter different environmental stressors. This study was the first time to identify the MAPK genes from Schizochytrium sp., which could enlarge the MAPK modules of salt stress tolerance and provide new elements for improving the stress resistance of other microorganisms.

Abstract Image

Schizochytrium sp.丝裂原活化蛋白激酶的鉴定及其在抗逆性环境中的应用
Schizochytrium sp.是一种海洋真菌,通常生活在盐度为40-100%的海水中,具有独特的耐盐特性。本研究首先通过基因组信息和生物信息学分析,从Schizochytrium sp.中鉴定出6个潜在的MAPK基因。然后,在不同培养条件下,Schizochytrium sp.的MAPK基因表达锁定了两个编码Mpk6315和Mpk2022的基因。此外,在酿酒酵母中,Mpk6315过表达可使细胞生长提高62%,而Mpk2022过表达可提高不同应激条件下细胞膜的完整性,表明Mpk6315可能对细胞生长起重要作用,Mpk2022可帮助细胞应对不同的环境胁迫。本研究首次从Schizochytrium sp.中鉴定出MAPK基因,可以扩大耐盐胁迫的MAPK模块,为提高其他微生物的抗逆性提供新的元素。
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来源期刊
Applied Biochemistry and Microbiology
Applied Biochemistry and Microbiology 生物-生物工程与应用微生物
CiteScore
1.70
自引率
12.50%
发文量
75
审稿时长
6-12 weeks
期刊介绍: Applied Biochemistry and Microbiology is an international peer reviewed journal that publishes original articles on biochemistry and microbiology that have or may have practical applications. The studies include: enzymes and mechanisms of enzymatic reactions, biosynthesis of low and high molecular physiologically active compounds; the studies of their structure and properties; biogenesis and pathways of their regulation; metabolism of producers of biologically active compounds, biocatalysis in organic synthesis, applied genetics of microorganisms, applied enzymology; protein and metabolic engineering, biochemical bases of phytoimmunity, applied aspects of biochemical and immunochemical analysis; biodegradation of xenobiotics; biosensors; biomedical research (without clinical studies). Along with experimental works, the journal publishes descriptions of novel research techniques and reviews on selected topics.
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