Interactions among filamentous fungi Aspergillus Niger, Fusarium verticillioides and Clonostachys rosea: Fungal biomass, diversity of secreted metabolites and fumonisin production

BMC Microbiology

Volumn 16, Issue 1, 2016, Pages

  Chatterjee, Subhankar ^a   Kuang, Yi ^a   Splivallo, Richard ^a   Chatterjee, Paramita ^a   Karlovsky, Petr ^a  

^a UNIVERSITY OF GÖTTINGEN   (Germany)

Author keywords

Fumonisin; Interference competition; Metabolic diversity; Metabolic profiling

Indexed keywords

ASPARAGINE; FUMONISIN; FUMONISIN B1; FUMONISIN B2; CULTURE MEDIUM;

ACIDIFICATION; ANTIBIOSIS; ARTICLE; ASPERGILLUS NIGER; AUTOLYSIS; CLONOSTACHYS ROSEA; COCULTURE; COMPETITION; CULTURE MEDIUM; DNA DETERMINATION; ELECTROSPRAY MASS SPECTROMETRY; FILAMENTOUS FUNGUS; FUNGAL BIOMASS; FUNGUS CULTURE; FUNGUS GROWTH; FUSARIUM VERTICILLIOIDES; GROWTH INHIBITION; HIGH PERFORMANCE LIQUID CHROMATOGRAPHY; METABOLIC REGULATION; METABOLITE; MYCELIUM; NONHUMAN; ORGANIC MATTER PRODUCTION; SUPERNATANT; BIOMASS; CHEMISTRY; FUSARIUM; GROWTH, DEVELOPMENT AND AGING; HYPOCREALES; METABOLISM; REPRODUCTIVE FITNESS; SECONDARY METABOLISM; SPECIES DIFFERENCE;

ANTIBIOSIS; ASPARAGINE; ASPERGILLUS NIGER; BIOMASS; COCULTURE TECHNIQUES; CULTURE MEDIA; FUMONISINS; FUSARIUM; GENETIC FITNESS; HYPOCREALES; SECONDARY METABOLISM; SPECIES SPECIFICITY;

EID: 84969141508     PISSN: None     EISSN: 14712180     Source Type: Journal    
DOI: 10.1186/s12866-016-0698-3     Document Type: Article

References (40)

1. Wicklow DT. Interference competition and the organization of fungal communities. In: Wicklow DT, Carroll GC, editors. The fungal community, its organization and role in the ecosystem. 2nd ed. New York: Marcel Dekker; 1992. p. 931.
2. Keller NP, Turner G, Bennett JW. Fungal secondary metabolism - from biochemistry to genomics. Nat Rev Microbiol. 2005;3:937-47.
3. Sirenko L, Malyarevskaya A, Birger T, Kirpenko Y. Ecological metabolites. In: Krasnov EV, editor. Vzaimodeistne Vodoi Zhiuym Veshchestuom.Volume 2. Moscow: Izdania; 1979. p. 48-56.
4. Karlovsky P. Secondary Metabolites in Soil Ecology. In: Karlovsky P, editor. Secondary Metabolites in Soil Ecology, Soil Biology. Berlin Heidelberg: Springer; 2008. p. 1-19.
5. O'Brien J, Wright GD. An ecological perspective of microbial secondary metabolism. Curr Opin Biotechnol. 2011;22:552-8.
6. Omura S, Arai N, Yamaguchi Y, Masuma R, Iwai Y, Namikoshi M, Turberg A, Kölbl H, Shiomi K. Argifin, a new chitinase inhibitor, produced by Gliocladium sp FTD-0668 - I. Taxonomy, fermentation, and biological activities. J Antibiot. 2000;53:603-8.
7. Lutz MP, Feichtinger G, Défago G, Duffy B. Mycotoxigenic Fusarium and deoxynivalenol production repress chitinase gene expression in the biocontrol agent Trichoderma atroviride P1. Appl Environ Microbiol. 2003;69:3077-84.
8. Child CJ, Shoolingin-Jordan PM. Inactivation of the polyketide synthase, 6-methylsalicylic acid synthase, by the specific modification of Cys-204 of the beta-ketoacyl synthase by the fungal mycotoxin cerulenin. J Biochem. 1998;330:933-7.
9. Cooney JM, Lauren DR, di Menna ME. Impact of competitive fungi on trichothecene production by Fusarium graminearum. J Agric Food Chem. 2001;49:522-6.
10. Utermark J, Karlovsky P. Role of zearalenone lactonase in protection of Gliocladium roseum from fungitoxic effects of the mycotoxin zearalenone. Appl Environ Microbiol. 2007;73:637-42.
11. Losada L, Ajayi O, Frisvad JC, Yu J, Nierman WC. Effect of competition on the production and activity of secondary metabolites in Aspergillus species. Med Mycol. 2009;47:S88-96.
12. Scherlach K, Hertweck C. Triggering cryptic natural product biosynthesis in microorganisms. Org Biomol Chem. 2009;7:1753-60.
13. Schroeckh V, Scherlach K, Nützmann H-W, Shelest E, Schmidt-Heck W, Schuemann J, Martin K, Hertweck C, Brakhage AA. Intimate bacterial-fungal interaction triggers biosynthesis of archetypal polyketides in Aspergillus nidulans. Proc Natl Acad Sci U S A. 2009;106:14558-63.
14. Brakhage AA, Schroeckh V. Fungal secondary metabolites - strategies to activate silent gene clusters. Fungal Genet Biol. 2011;48:15-22.
15. Hua SST, Beck JJ, Sarreal SBL, Gee W. The major volatile compound 2-phenylethanol from the biocontrol yeast, Pichia anomala, inhibits growth and expression of aflatoxin biosynthetic genes of Aspergillus flavus. Mycotoxin Res. 2014;30:71-8.
16. Charusanti P, Fong NL, Nagarajan H, Pereira AR, Li HJ, Abate EA, Su YX, Gerwick WH, Palsson BO. Exploiting adaptive laboratory evolution of Streptomyces clavuligerus for antibiotic discovery and overproduction. PLoS One. 2012;7:e33727.
17. Barberis CL, Pena G, Carranza C, Magnoli CE. Effect of indigenous mycobiota on ochratoxin A production by Aspergillus carbonarius isolated from soil: ochratoxin in mixed cultures. Mycotoxin Res. 2014;30:1-8.
18. Velluti A, Marín S, Bettucci L, Ramos AJ, Sanchis V. The effect of fungal competition on colonization of maize grain by Fusarium moniliforme, F. proliferatum and F. graminearum and on fumonisin B1 and zearalenone formation. Int J Food Microbiol. 2000;59:59-66.
19. Marín S, Albareda X, Ramos AJ, Sanchis V. Impact of environment and interactions of Fusarium verticillioides and Fusarium proliferatum with Aspergillus parasiticus on fumonisin B1 and aflatoxins on maize grain. J Sci Food Agric. 2001;81:1060-8.
20. Estrada AER, Hegeman A, Kistler HC, May G. In vitro interactions between Fusarium verticillioides and Ustilago maydis through real-time PCR and metabolic profiling. Fungal Genet Biol. 2011;48:874-85.
21. Rossman AY, Seifert KA, Samuels GJ, Minnis AM, Schroers H-J, Lombard L, et al. Genera in Bionectriaceae, Hypocreaceae, and Nectriaceae (Hypocreales) proposed for acceptance or rejection. IMA Fungus. 2013;4:41-51.
22. Brandfass C, Karlovsky P. Simultaneous detection of Fusarium culmorum and F. graminearum in plant material by duplex PCR with melting curve analysis. BMC Microbiol. 2006;6:4.
23. Harman GE, Björkmann T. Potential and existing uses of Trichoderma and Gliocladium for plant disease control and plant growth enhancement. In: Kubicek CP, Harman GE, editors. Trichoderma and Gliocladium, Enzymes, Biological Control and Commercial Applications, vol. 2. London: Taylor and Francis; 1998. p. 365.
24. Baek S-H, Li AH, Sassetti CM. Metabolic regulation of mycobacterial growth and antibiotic sensitivity. PLoS Biol. 2011;9:e1001065.
25. Kerr B, Riley MA, Feldman MW, Bohannan BJM. Local dispersal promotes biodiversity in a real-life game of rock-paper-scissors. Nature. 2002;418:171-4.
26. Scherling C, Roscher C, Giavalisco P, Schulze E-D, Weckwerth W. Metabolomics unravel contrasting effects of biodiversity on the performance of individual plant species. PLoS One. 2010;5:e12569.
27. Czaran TL, Hoekstra RF, Pagie L. Chemical warfare between microbes promotes biodiversity. Proc Natl Acad Sci. 2002;99:786-90.
28. Doyle MP, Marth EH. Aflatoxin is degraded by mycelia from toxigenic and nontoxigenic strains of Aspergilli grown on different substrates. Mycopathologia. 1978;63:145-53.
29. Savard ME, Miller JD. Characterization of fusarin F, a new fusarin from Fusarium moniliforme. J Nat Prod. 1992;55:64-70.
30. Karlovsky P. Biological detoxification of fungal toxins and its use in plant breeding, feed and food production. Nat Toxins. 1999;7:1-23.
31. Marín S, Magan N, Ramos AJ, Sanchis V. Fumonisin-producing strains of Fusarium: a review of their ecophysiology. J Food Prot. 2004;67:1792-805.
32. Velluti A, Marín S, Gonzalez R, Ramos AJ, Sanchis V. Fumonisin B1, zearalenone and deoxynivalenol production by Fusarium moniliforme, F. proliferatum and F. graminearum in mixed cultures on irradiated maize kernels. J Sci Food Agric. 2001;81:88-94.
33. Yates IE, Meredith F, Smart W, Bacon CW, Jaworski AJ. Trichoderma viride suppresses fumonisin B1 production by Fusarium moniliforme. J Food Prot. 1999;62:1326-32.
34. Keyser Z, Vismer H, Klaasen J, Snijman P, Marasas W. The antifungal effect of fumonisin B1 on Fusarium and other fungal species. South Afr J Sci. 1999;95:455-8.
35. Frisvad JC, Smedsgaard J, Samson RA, Larsen TO, Thrane U. Fumonisin B2 Production by Aspergillus niger. J Agric Food Chem. 2007;55:9727-32.
36. Mogensen JM, Frisvad JC, Thrane U, Nielsen KF. Production of fumonisin B2 and B4 by Aspergillus niger on grapes and raisins. J Agric Food Chem. 2010;58:954-8.
37. Ratzinger A, Riediger N, von Tiedemann A, Karlovsky P. Salicylic acid and salicylic acid glucoside in xylem sap of Brassica napus infected with Verticillium longisporum. J Plant Res. 2009;122:571-9.
38. Adejumo TO, Hettwer U, Karlovsky P. Survey of maize from south-western Nigeria for zearalenone, alpha- and beta-zearalenols, fumonisin B-1 and enniatins produced by Fusarium species. Food Addit Contam. 2007;24:993-1000.
39. Windig W, Phalp JM, Payne AW. Noise and background reduction method for component detection in liquid chromatography/mass spectrometry. Anal Chem. 1996;68:3602-6.
40. Laurentin H, Ratzinger A, Karlovsky P. Relationship between metabolic and genomic diversity in sesame (Sesamum indicum L.). BMC Genomics. 2008;9:250.