• Title/Summary/Keyword: Aspergillus protuberus

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Isolation and Structure Determination of Metabolites from Cultures of Aspergillus protuberus (Aspergillus protuberus 배양물로부터 대사체 분리 및 구조 결정)

  • Baek, So Yoon;Shim, Sang Hee
    • Korean Journal of Microbiology
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    • v.49 no.2
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    • pp.179-183
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    • 2013
  • Marine-derived microbes have yielded a variety of metabolites so far. In the course of the project to find metabolites from marine microbes, an isolate of Aspergillus protuberus (SF 5767) was selected for chemical investigation. A large scale culture of this strain in PDA media was extracted with an organic solvent and the extract was fractionated by silica gel column chromatography. Repeated reverse phase HPLC of the fractions led to the isolation of three metabolites. Their chemical structures were elucidated as deoxybrevianamide E (1), brevianamide V (2), and ergosterol peroxide (3) on the basis of spectroscopic data including MS, NMR, and UV. To the best of our knowledge, chemical investigation of A. protuberus was conducted for the first time in this study.

Draft Genome Sequences of Three Airborne Aspergilli Series Versicolores

  • Gery, Antoine;Seguin, Virginie;Bonhomme, Julie;Garon, David
    • Mycobiology
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    • v.50 no.1
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    • pp.96-98
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    • 2022
  • The Aspergilli of the section Nidulantes series Versicolores are among the most recurrent molds in indoor environments. These species cause damage to the quality of air. Indeed, they are responsible for allergies, aggravation of asthma and can even cause infections in immunocompromised patients. Molds belonging to the Versicolores series also produce sterigmatocystin, a mycotoxin classified as potential human carcinogen by the International Agency for Research on Cancer (group 2B). Here, we provide for the first time the genome of three species of the series Versicolores: Aspergillus creber, Aspergillus jensenii and Aspergillus protuberus which are the most abundant species of this series in bioaerosols. The genomes of these three species could be assembled with a percentage of completeness of 97.02%, 96.21% and 95.35% for Aspergillus creber, A. jensenii and A. protuberus respectively. These data will allow to study the genes and gene clusters responsible for the expression of virulence factors, the biosynthesis of mycotoxins and the proliferation of these ubiquitous and recurrent molds.