用户名: 密码: 验证码:
Cloning and characterization of a novel 2-ketoisovalerate reductase from the beauvericin producer Fusarium proliferatum LF061
详细信息    查看全文
  • 作者:Tao Zhang (1) (2)
    XiaoPeng Jia (1) (2)
    Ying Zhuo (1)
    Mei Liu (1)
    Hong Gao (1)
    JinTao Liu (1) (2)
    Lixin Zhang (1)
  • 关键词:2 ; Kiv Reductase ; Beauvericin ; Fusarium proliferatum LF061
  • 刊名:BMC Biotechnology
  • 出版年:2012
  • 出版时间:December 2012
  • 年:2012
  • 卷:12
  • 期:1
  • 全文大小:502KB
  • 参考文献:1. Hamill RL, Higgens CE, Boaz HE, Gorman M: Structure of beauvericin, a new depsipeptide antibiotic toxic to Artemia salina . / Tetrahedron Lett 1969, 49:4255-258. CrossRef
    2. Shemyakin MM, Ovchinnikov YA, Kiryushkin AA, Ivanov VT: Concerning the structure of enniatin-B. / Tetrahedron Lett 1962, 7:301-05. CrossRef
    3. Pedras MS, Irina Zaharia L, Ward DE: The destruxins: synthesis, biosynthesis, biotransformation, and biological activity. / Phytochemistry 2002, 59:579-96. CrossRef
    4. Kanaoka M, Isogai A, Murakoshi S, Ichinoe M, Suzuki A, Tamura S: Bassianolide, a new insecticidal cyclodepsipeptide from Beauveria bassiana and verticillium lecanii . / Agric Biol Chem 1978, 42:629-35. CrossRef
    5. Levy D, Bluzat A, Seigneuret M, Rigaud JL: Alkali cation transport through liposomes by the antimicrobial fusafungine and its constitutive enniatins. / Biochem Pharmacol 1995, 50:2105-107. CrossRef
    6. Luangsa-Ard JJ, Berkaew P, Ridkaew R, Hywel-Jones NL, Isaka M: A beauvericin hot spot in the genus Isaria . / Mycol Res 2009, 113:1389-395. CrossRef
    7. Logrieco A, Moretti A, Castella G, Kostecki M, Golinski P, Ritieni A, Chelkowski J: Beauvericin production by Fusarium species. / Appl Environ Microbiol 1998, 64:3084-088.
    8. Molnar I, Gibson DM, Krasnoff SB: Secondary metabolites from entomopathogenic Hypocrealean fungi. / Nat Prod Rep 2010, 27:1241-275. CrossRef
    9. Sussmuth R, Muller J, von Dohren H, Molnar I: Fungal cyclooligomer depsipeptides: from classical biochemistry to combinatorial biosynthesis. / Nat Prod Rep 2011, 28:99-24. CrossRef
    10. Zhang LX, Yan KZ, Zhang Y, Huang R, Bian J, Zheng CS, Sun HX, Chen ZH, Sun N, An R, / et al.: High-throughput synergy screening identifies microbial metabolites as combination agents for the treatment of fungal infections. / Proc Nat Acad Sci USA 2007, 104:4606-611. CrossRef
    11. Fukuda T, Arai M, Tomoda H, Omura S: New beauvericins, potentiators of antifungal miconazole activity, produced by Beauveria sp FKI-1366 - II. Structure elucidation. / J Antibiot 2004, 57:117-24. CrossRef
    12. Lee HS, Song HH, Ahn JH, Shin CG, Lee GP, Lee C: Statistical optimization of growth medium for the production of the entomopathogenic and phytotoxic cyclic depsipeptide beauvericin from Fusarium oxysporum KFCC11363P. / J Microbiol Biotech 2008, 18:138-44.
    13. Crowell PL, Miller RH, Harper AE: Measurement of plasma and tissue-levels of branched-chain alpha-keto acids by Gas–liquid chromatography. / Method Enzymol 1988, 166:39-6. CrossRef
    14. Kato M, Wynn RM, Chuang JL, Brautigam CA, Custorio M, Chuang DT: A synchronized substrate-gating mechanism revealed by cubic-core structure of the bovine branched-chain alpha-ketoacid dehydrogenase complex. / EMBO J 2006, 25:5983-994. CrossRef
    15. Gasking AL, Edwards WTE, Hobsonfrohock A, Elia M, Livesey G: Quantitative high-performance liquid-chromatographic analysis of branched-chain 2-keto acids in biological samples. / Method Enzymol 1988, 166:20-7. CrossRef
    16. Duggleby RG, Pang SS: Acetohydroxyacid synthase. / J Biochem Mol Biol 2000, 33:1-6.
    17. Lee C, Gorisch H, Kleinkauf H, Zocher R: A highly specific D-hydroxyisovalerate dehydrogenase from the enniatin producer Fusarium sambucinum . / J Biol Chem 1992, 267:11741-1744.
    18. Zocher R: Purification of D-hydroxyisovalerate dehydrogenase from Fusarium sambucinum . / Branched-Chain Amino Acids, Pt B 2000, 324:293-01. CrossRef
    19. Lee C, Zocher R: The biochemical characterization of D-hydroxyisovalerate dehydrogenase, a key enzyme in the biosynthesis of enniatins. / J Biochem Mol Biol 1996, 29:493-99.
    20. Xu YQ, Wijeratne EMK, Espinosa-Artiles P, Gunatilaka AAL, Molnar I: Combinatorial mutasynthesis of scrambled beauvericins, cyclooligomer depsipeptide cell migration inhibitors from Beauveria bassiana . / Chem Bio Chem 2009, 10:345-54.
    21. Sambrook J: / DW R: Molecular Cloning: A Laboratory Manual. 3rd edition. New York: Cold Spring Harbor Laboratory Press; 2001.
    22. Birnboim HC, Doly J: A rapid alkaline extraction procedure for screening recombinant plasmid DNA. / Nucleic Acids Res 1979, 7:1513-523. CrossRef
    23. Saitou N, Nei M: The neighbor-joining method - a new method for reconstructing phylogenetic trees. / Mol Biol Evol 1987, 4:406-25.
    24. Tamura K, Dudley J, Nei M, Kumar S: MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) software version 4.0. / Mol Biol Evol 2007, 24:1596-599. CrossRef
    25. Thompson JD, Gibson TJ, Plewniak F, Jeanmougin F, Higgins DG: The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. / Nucleic Acids Res 1997, 25:4876-882. CrossRef
    26. Grote A, Hiller K, Scheer M, Munch R, Nortemann B, Hempel DC, Jahn D: JCat: a novel tool to adapt codon usage of a target gene to its potential expression host. / Nucleic Acids Res 2005, 33:W526-W531. CrossRef
    27. Puigbo P, Guzman E, Romeu A, Garcia-Vallve S: OPTIMIZER: a web server for optimizing the codon usage of DNA sequences. / Nucleic Acids Res 2007, 35:W126-W131. CrossRef
    28. Brown RE, Jarvis KL, Hyland KJ: Protein measurement using bicinchoninic acid - elimination of interfering substances. / Anal Biochem 1989, 180:136-39. CrossRef
    29. Lee C, Goerisch H, Zocher R: The kinetic investigation of D-hydroxyisovalerate dehydrogenase from Fusarium sambucinum . / J Biochem Mol Biol 2000, 33:228-33.
    30. Ciulli A, Chirgadze DY, Smith AG, Blundell TL, Abell C: Crystal structure of Escherichia coli ketopantoate reductase in a ternary complex with NADP(+) and pantoate bound - Substrate recognition, conformational change, and cooperativity. / J Biol Chem 2007, 282:8487-497. CrossRef
    31. Zheng RJ, Blanchard JS: Identification of active site residues in E . coli ketopantoate reductase by mutagenesis and chemical rescue. / Biochemistry 2000, 39:16244-6251. CrossRef
    32. Arnold K, Bordoli L, Kopp J, Schwede T: The SWISS-MODEL workspace: a web-based environment for protein structure homology modelling. / Bioinformatics 2006, 22:195-01. CrossRef
    33. Lobley CMC, Ciulli A, Whitney HM, Williams G, Smith AG, Abell C, Blundell TL: The crystal structure of Escherichia coli ketopantoate reductase with NADP(+) bound. / Biochemistry 2005, 44:8930-939. CrossRef
    34. Heider J, Mai XH, Adams MWW: Characterization of 2-ketoisovalerate ferredoxin oxidoreductase, a new and reversible coenzyme A-dependent enzyme involved in peptide fermentation by hyperthermophilic archaea. / J Bacteriol 1996, 178:780-87.
    35. Kletzin A, Adams MWW: Molecular and phylogenetic characterization of pyruvate and 2-ketoisovalerate ferredoxin oxidoreductases from Pyrococcus furiosus and pyruvate ferredoxin oxidoreductase from Thermotoga maritima . / J Bacteriol 1996, 178:248-57.
    36. Xu Y, Orozco R, Wijeratne EM, Gunatilaka AA, Stock SP, Molnar I: Biosynthesis of the cyclooligomer depsipeptide beauvericin, a virulence factor of the entomopathogenic fungus Beauveria bassiana . / Chem Biol 2008, 15:898-07. CrossRef
    37. Peters J, Zelinski T, Kula MR: Studies on the distribution and regulation of microbial keto ester reductases. / Appl Microbiol Biotechnol 1992, 38:334-40. CrossRef
  • 作者单位:Tao Zhang (1) (2)
    XiaoPeng Jia (1) (2)
    Ying Zhuo (1)
    Mei Liu (1)
    Hong Gao (1)
    JinTao Liu (1) (2)
    Lixin Zhang (1)

    1. Chinese Academy of Sciences Key Laboratory of Pathogenic Microbiology and Immunology, Institute of Microbiology, Chinese Academy of Sciences, Bei’er Tiao Road, Zhongguancun Haidian District, Beijing, 100190, China
    2. Graduate University of Chinese Academy of Sciences, Beijing, 100190, China
  • ISSN:1472-6750
文摘
Background The ketoisovalerate reductase (EC 1.2.7.7 ) is required for the formation of beauvericin via the nonribosomal peptide synthetase biosynthetic pathway. It catalyzes the NADPH-specific reduction of ketoisovaleric acid to hydroxyisovalerate. However, little is known about the bioinformatics-data about the 2-Kiv reductase in Fusarium. To date, heterologous production of the gene KivRFp from Fusarium has not been achieved. Results The KivRFp gene was subcloned and expressed in Escherichia coli BL21 using the pET expression system. The gene KivRFp contained a 1,359?bp open reading frame (ORF) encoding a polypeptide of 452 amino acids with a molecular mass of 52?kDa. Sequence analysis indicated that it showed 61% and 52% amino acid identities to ketoisovalerate reductase from Beauveria bassiana ATCC 7159 (ACI30654) and Metarhizium acridum CQMa 102 (EFY89891), respectively; and several conserved regions were identified, including the putative nucleotide-binding signature site, GXGXXG, a catalytic triad (Glu405, Asn184, and Lys285). The KivRFp exhibited the highest activity at 35°C and pH 7.5 respectively, by reduction of ketoisovalerate. It also exhibited the high level of stability over wide temperature and pH spectra and in the presence of metal ions or detergents. Conclusions A new ketoisovalerate reductase KivRFp was identified and characterized from the depsipeptide-producing fungus F. proliferatum. KivRFp has been shown to have useful properties, such as moderate thermal stability and broad pH optima, and may serve as the starting points for future protein engineering and directed evolution, towards the goal of developing efficient enzyme for downstream biotechnological applications.

© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号

地址:北京市海淀区学院路29号 邮编:100083

电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700