Myroides odoratimimus, a biocontrol agent from the rhizosphere of tobacco with potential to control Alternaria alternata

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• 作者：C. You ; C. Zhang ; C. Feng ; J. Wang ; F. Kong
• 关键词：Myroides odoratimimus ; Volatile compounds ; Antifungal activity ; Alternaria alternata
• 刊名：BioControl
• 出版年：2015
• 出版时间：August 2015
• 年：2015
• 卷：60
• 期：4
• 页码：555-564
• 全文大小：694 KB
• 参考文献：Arrebola E, Sivakumar D, Korsten L (2010) Effect of volatile compounds produced by Bacillus strains on postharvest decay in citrus. Biol Control 53:122-28View Article
  Boukaew S, Plubrukam A, Prasertsan P (2013) Effect of volatile substances from Streptomyces philanthi RM-1-138 on growth of Rhizoctonia solani on rice leaf. BioControl 58:471-82View Article
  Chaurasiaa B, Pandeya A, Palni LMS, Trivedi P, Kumar B, Colvin N (2005) Diffusible and volatile compounds produced by an antagonistic Bacillus subtilis strain cause structural deformations in pathogenic fungi in vitro. Microbiol Res 160:75-1View Article
  Chen H, Xiao X, Jun W, Wu LJ, Zheng ZM, Yu ZL (2008) Antagonistic effects of volatiles generated by Bacillus subtilis on spore germination and hyphal growth of the plant pathogen Botrytis cinerea. Biotechnol Lett 30:919-23PubMed View Article
  Corcuff R, Mercier J, Tweddell R, Arul J (2011) Effect of water activity on the production of volatile organic compounds by Muscodor albus and their effect on three pathogens in stored potato. Fungal Biol 115:220-27PubMed View Article
  Fang DH, Bai YL, Deng XY, Yang B, Li TF (2005) Effect of TV-1 parasiting on the pathogen of tobacco brown spot disease by different spore ratio. J Southwest Agric Univ (Nat Sci) 27:33-5 (in Chinese)
  Farag MA, Ryu CM, Sumner LW, Paré PW (2006) GC-MS SPME profiling of rhizobacterial volatiles reveals prospective inducers of growth promotion and induced systemic resistance in plants. Phytochemistry 67:2262-268PubMed View Article
  Fernando WGD, Ramarathnam R, Krishnamoorthy AS, Savchuk SC (2005) Identification and use of potential bacterial organic antifungal volatiles in biocontrol. Soil Biol Biochem 37:955-64View Article
  Gu YQ, Mo MH, Zhou JP, Zou CS, Zhang KQ (2007) Evaluation and identification of potential organic nematicidal volatiles from soil bacteria. Soil Biol Biochem 39:2567-575View Article
  Gutiérrez-Luna FM, López-Bucio J, Altamirano-Hernández J, Valencia-Cantero E, Cruz HR, Macías-Rodríguez L (2010) Plant growth-promoting rhizobacteria modulate root-system architecture in Arabidopsis thaliana through volatile organic compound emission. Symbiosis 51:75-3View Article
  Haddad F, Maffia LA, Mizubuti ESG, Teixeira H (2009) Biological control of coffee rust by antagonistic bacteria under field conditions in Brazil. Biol Control 49:114-19View Article
  Hitoshi A, Koji H, Ikumi O, Yoshie YK, Atsushi K (2012) Antifungal activities of volatile substances generated by yeast isolated from Iranian commercial cheese. Food Control 26(2):472-78View Article
  Hung R, Lee S, Bennett JW (2013) Arabidopsis thaliana as a model system for testing the effect of Trichoderma volatile organic compounds. Fungal Biol 6:19-6
  Koitabashi M (2005) New biocontrol method for parsley mildew by the antifungal volatiles-producing fungus Kyu-W63. J Gen Plant Pathol 71:280-84View Article
  Li DC, Yang YJ, Shen CY (1996) Olpitrichum tenellum as a biotrophic contact mycoparasite. Can J Bot 74:2014-016View Article
  Li QL, Ning P, Zheng L, Huang JB, Li GQ, Hsiang T (2010) Fumigant activity of volatiles of Streptomyces globisporus JK-1 against Penicillium italicum on Citrus microcarpa. Postharvest Biol Technol 58:157-65View Article
  Li QL, Guo TX, Huang HP, Huang JB, Mo JY (2012a) Volatile substances produced by bacteria and their biological functions. J Microbiol 32:74-2 (in Chinese)
  Li QL, Ning P, Zheng L, Huang JB, Li GQ, Hsiang T (2012b) Effects of volatile substances of Streptomyces globisporus JK-1 on control of Botrytis cinerea on tomato fruit. Biol Control 61:113-20View Article
  Liu WW, Mu W, Zhu BY, Du YC, Liu F (2008) Antagonistic activities of volatiles from four strains of Bacillus spp. and Paenibacillus spp. against soil-borne plant pathogens. Agric Sci China 7:1104-114View Article
  Maruzzella JC, Chiaramonte JS, Garofalo MM (1961) Effect of vapors of aromatic chemicals on fungi. J Pharm Sci US 50:665-68View Article
  McCain AH (1966) A volatile antibiotic by Streptomyces griseus. Phytopathology 56:150
  Ryu CM, Farag MA, Hu CH, Reddy MS, Wei HX, Paré PW, Kloepper JW (2003) Bacterial volatiles promote growth in Arabidopsis. Proc Natl Acad Sci USA 100:4927-932PubMed Central PubMed View Article
  Wan MG, Li GQ, Zhang JB, Jiang DH, Huang HC (2008) Effect of volatile substances of Streptomyces platensis F-1 on control of plant fungal diseases. Biol Control 46:552-59View Article
  Wenke K, Wanke D, Kilian J, Berendzen K, Harter K, Piechulla B (2012) Volatiles of two growth inhibiting rhizobacteria commonly engage AtWRKY18 function. Plant J 70:445-59PubMed View Article
  Xu CK, Mo MH, Zhang LM, Zhang KQ (2004) Soil volatile fungistasis and volatile fungistatic compounds. Soil Biol Biochem 36:1997-004View Article
  Yang W, Xu Q, Liu HX, Wang YP, Wang YM, Yang HT, Guo JH (2012) Evaluation of biological control agents against Ralstonia wilt on ginger. Biol Control 62:144-51Vi
• 作者单位：C. You (1)
  C. Zhang (1)
  C. Feng (1)
  J. Wang (1)
  F. Kong (1)
  
  1. Pest Integrated Management Key Laboratory of China Tobacco, Tobacco Research Institute of Chinese Academy of Agricultural Sciences, 11 Keyuan Road Four, Qingdao, 266101, China
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Evolutionary Biology
  Plant Pathology
  Animal Systematics/Taxonomy/ Biogeography
  Plant Sciences
  
• 出版者：Springer Netherlands
• ISSN：1573-8248

文摘

Bacteria from the tobacco rhizosphere were isolated and evaluated for their potential of producing volatile compounds against tobacco brown spot pathogen Alternaria alternata. Among the 82 strains of bacteria isolated from tobacco rhizosphere, 22 produced volatiles against the fungal pathogen A. alternata and showed an inhibition rate of over 50?% on A. alternata. The inhibition rate of strain T45 was the most pronounced, reaching 78.89?%. Sequence analysis of 16S rDNA of T45 identified it as Myroides odoratimimus. Scanning electron microscopy revealed that the volatile compounds it produced strongly suppressed mycelial growth, conidial germination, and sporulation, leading to mycelial fragmentation, surface crumpling, and damage to hyphae morphology. A sealed plate experiment showed volatile compounds generated from M. odoratimimus T45 exhibited inhibitory effect on the growth of eight plant pathogenic fungi (10.52-8.20?%), the inhibition was most pronounced on Valsa mali while the least pronounced inhibitory effect was on Colletotrichum orbiculare. Headspace solid-phase microextraction gas chromatography mass spectrometry analysis revealed a total of 24 compounds in the volatiles produced by M. odoratimimus. The main components of volatiles primarily included alcohols, aldehydes, acids, ketones, esters, and hydrocarbons. At a concentration of 100?μl per dish, isoamyl alcohol, isobutyric acid and isovaleric acid were able to completely inhibit the mycelial growth of A. alternata. This is the first report on using volatiles produced by M. odoratimimus T45 as biocontrol agents against A. alternata. The studies indicated M. odoratimimus T45 and volatile compounds isoamyl alcohol, isobutyric acid and isovaleric acid it produced could be potential biocontrol agents suitable for use against A. alternata.