<i>Muscodor albus</i> strain GBA, an endophytic fungus of <i>Ginkgo biloba</i> from United States of America, produces volatile antimicrobials

Debdulal Banerjee; Gary Strobel; Brad Geary; Joe Sears; David Ezra; Orna Liarzi; James Coombs

doi:10.1080/21501203.2010.506204

AI Chat Paper

Note: Please note that the following content is generated by AMiner AI. SciOpen does not take any responsibility related to this content.

Chat more with AI

| Sign up

Browse by Subject

Search for peer-reviewed journals with full access.

Journals A - Z

About Us

Discover the SciOpen Platform and Achieve Your Research Goals with Ease.

About Us

Publish with Us

Support

Journals A - Z

About Us

Publish with Us

Support

Article Link

Cite

EndNote(RIS) BibTeX

Collect

Submit Manuscript

Show Outline

Outline

Show full outline

Hide outline

Outline

Show full outline

Hide outline

Article | Open Access

Muscodor albus strain GBA, an endophytic fungus of Ginkgo biloba from United States of America, produces volatile antimicrobials

Debdulal Banerjee^{^a^,^†}, Gary Strobel^{^a}(

), Brad Geary^{^b}, Joe Sears^{^c}, David Ezra^{^d}, Orna Liarzi^{^d}, James Coombs^{^e}

Department of Plant Sciences, Montana State University, Bozeman, MT 59717, USA

Department of Plant and Wildlife Sciences, Brigham Young University, Provo, UT 84602, USA

Center for Lab Services/RJ Lee Group, 2710 North 20th Ave., Pasco, WA 99301, USA

Department of Plant Pathology and Weed Research, ARO, The Volcani Center, P.O. Bet-Dagan 50250, Israel

13 Narragansett Ave., Newport, RI 02840, USA

†Current address: Department of Microbiology, Vidyasagar University, Midnapore-721102, West Bengal, India

Show Author Information

Abstract

Muscodor albus strain GBA is a newly isolated endophytic fungus from Ginko biloba (family Ginkoaceae) collected in Newport, RI, USA. The cultural characteristics (color, growth pattern) and mycelial/hyphal characteristics resemble many isolates of Muscodor albus. The ITS rDNA sequence of the strain has at least 98% similarity with other isolates of M. albus and M. crispans. This xylariaceaous species effectively inhibits and kills certain test microbes via a mixture of volatile organic compounds (VOCs) that it produces. Some of the target test microbes were totally inhibited by M. albus strain GBA and not by other M. albus isolates, making this isolate unique in its biological activity. The VOCs of this fungus were identified by gas chromatography/mass spectrometry as esters, lipids, alcohols, acids and ketones, including proportionally large quantities of 1-butanol, 3-methyl-, acetate. A terpenoid, not observed in other strains of this fungus, vitrene was tentatively identified in the VOCs of this organism. This is the first record of M. albus in Ginko biloba and is the first report of any M. albus strain from the United States. The organism is normally found in tropical latitudes (16° north/south) but the plant host M. albus strain GBA is located at 41° north latitude. Most importantly, however, the discovery of M. albus in the USA has enormous implications vis-a.vis governmental regulation of M. albus for use as a biological control agent in agriculture and industry, as this organism naturally occurs in the USA. A discussion on the relationship of this taxon with its host is also included.

Keywords

antibiotics pathogens endophyte biological control organic volatiles

References

Atmosukarto I, Castillo U, Hess WM, Sears J, Strobel G. 2005. Isolation and characterization of Muscodor albus I-41.3s, a volatile antibiotic producing fungus. Plant Sci. 169: 854–861.

Crossref Google Scholar

Bacon CW, White JF Jr. 2000. Microbial endophytes. New York: Marcel Dekker.

Crossref

Bjurman J, Kristensson J. 1992. Volatile production by Aspergillus versicolor as a possible cause of odor in houses affected by fungi. Mycopathology 118: 173–178.

Crossref Google Scholar

Dennis C, Webster J. 1971. Antagonistic properties of species-groups of Trichoderma. 11. Production of volatile antibiotics. Trans Br Mycol. Soc. 57: 41–48.

Crossref Google Scholar

Ezra, D, Hess WM, Strobel GA. 2004. Unique wild type endophytic isolates of Muscodor albus, a volatile antibiotic producing fungus. Microbiology 150: 4023–4031.

Crossref Google Scholar

Felsenstein J. 1985. Confidence limits on phylogenies: An approach using the bootstrap. Evolution 39: 783–791.

Crossref Google Scholar

Korpi A, Jarnberg J, Pasanen AL. 2009. Microbial volatile organic compounds. Crit Rev Toxicol. 39: 139–193.

Crossref Google Scholar

Mitchell AM, Strobel GA, Hess WM, Vargas PN, Ezra D. 2008. Muscodor crispans, a novel endophyte from Ananas ananassoides in the Bolivian Amazon. Fung Divers. 31: 37–43.

Google Scholar

Mitchell AM, Strobel GA, Moore E, Robison R, Sears J. 2010. Volatile antimicrobials from Muscodor crispans, a novel endophytic fungus. Microbiology 156: 270–277.

Crossref Google Scholar

Saitou N, Nei M. 1987. The neighbor-joining method: A new method for reconstructing phylogenetic trees. Mol Biol Evol. 4: 406–425.

Google Scholar

Schnurer J, Olsson J, Borjesson T. 1999. Fungal volatiles as indicators of food and feeds spoilage. Fung Genet Biol. 27: 209–217.

Crossref Google Scholar

Schulz S, Dickschat JS. 2007. Bacterial volatiles: the smell of small organisms. Nat Prod Rep. 24: 814–842.

Crossref Google Scholar

Sopalun K, Strobel GA, Hess WM, Worapong J. 2003. A record of Muscodor albus, an endophyte from Myristica fragrans, in Thailand. Mycotaxon 88: 239–247.

Google Scholar

Stinson AM, Zidack NK, Strobel GA, Jacobsen BJ. 2003. Effect of mycofumigation with Muscodor albus and Muscodor roseus on seedling diseases of sugarbeet and Verticillium wilt of eggplant. Plant Dis. 87: 1349–1354.

Crossref Google Scholar

Strobel G. 2006. Muscodor albus and its biological promise. J Ind Microbiol Biotechnol. 33: 514–522.

Crossref Google Scholar

Strobel GA, Dirksie E, Sears J, Markworth C. 2001. Volatile antimicrobials from Muscodor albus, a novel endophytic fungus. Microbiology 147: 2943–2950.

Crossref Google Scholar

Strobel GA, Daisy BH, Castillo U, Harper J. 2004. Natural products from endophytic microorganisms. J Nat Prod. 67: 257–268.

Crossref Google Scholar

Strobel GA, Kluck K, Hess WM, Sears J, Ezra D, Vargas PN. 2007. Muscodor albus E-6, an endophyte of Guazuma ulmifolia, making volatile antibiotics: isolation, characterization and experimental establishment in the host plant. Microbiology 153: 2613–2620.

Crossref Google Scholar

Strobel G, Knighton B, Kluck K, Ren Y, Livinghouse T, Griffen M, Spakowicz D, Sears J. 2008. The production of myco-diesel hydrocarbons and their derivatives by the endophytic fungus Gliocladium roseum. Microbiology 154: 3319–3328.

Crossref Google Scholar

Tamura K, Dudley J, Nei M, Kumar S. 2007. MEGA4: Molecular evolutionary genetics analysis (MEGA) software version 4.0. Mol Biol Evol. 24: 1596–1599.

Crossref Google Scholar

Woropong J, Strobel GA, Ford EJ, Li JY, Baird G, Hess WM. 2001. Muscodor albus anam. nov. an endophyte from Cinnamomum zeylanicum. Mycotaxon 79: 67–79.

Google Scholar

Yang X, Strobel GA, Stierle A, Hess WM, Lee J, Clardy J. 1994. A fungal endophyte tree relationship; Phoma sp. in Taxus wallichiana. Plant Sci. 102: 1–9.

Crossref Google Scholar

Mycology

Volume 1 Issue 3,
September 2010

Pages 179-186

DOI: 10.1080/21501203.2010.506204

Cite this article:

Banerjee D, Strobel G, Geary B, et al. Muscodor albus strain GBA, an endophytic fungus of Ginkgo biloba from United States of America, produces volatile antimicrobials. Mycology, 2010, 1(3): 179-186. https://doi.org/10.1080/21501203.2010.506204

116

Views

Crossref

N/A

Web of Science

Scopus

Google Scholar
Citation

Altmetrics

Received: 29 March 2010

Accepted: 17 May 2010

Published: 11 August 2010