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Autori principali: Zhang, Wenzhou, Ling, Minghuang, Zhang, Kai, Liu, Ruzhen, Huang, Xiaomei, Fan, Gaili, Grossart, Hans-Peter, Peng, Fei, Luo, Zhuhua
Natura: Artículo científico
Lingua:en
Pubblicazione: Marine genomics 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/39855814/
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author Zhang, Wenzhou
Ling, Minghuang
Zhang, Kai
Liu, Ruzhen
Huang, Xiaomei
Fan, Gaili
Grossart, Hans-Peter
Peng, Fei
Luo, Zhuhua
author_facet Zhang, Wenzhou
Ling, Minghuang
Zhang, Kai
Liu, Ruzhen
Huang, Xiaomei
Fan, Gaili
Grossart, Hans-Peter
Peng, Fei
Luo, Zhuhua
Zhang, Wenzhou
Ling, Minghuang
Zhang, Kai
Liu, Ruzhen
Huang, Xiaomei
Fan, Gaili
Grossart, Hans-Peter
Peng, Fei
Luo, Zhuhua
collection PubMed - marine biology
contents Complete genome sequence of the marine mangrove fungus Sarcopodium sp.QM3-1 confirmed its high potential for antimicrobial activity. Zhang, Wenzhou Ling, Minghuang Zhang, Kai Liu, Ruzhen Huang, Xiaomei Fan, Gaili Grossart, Hans-Peter Peng, Fei Luo, Zhuhua Genome, Fungal Whole Genome Sequencing Ascomycota Mangroves, owing to their unique living environment, serve as an important source of natural bioactive compounds. Sarcopodium sp. QM3-1, a marine fungus isolated from mangrove sediments of Quanzhou Bay, exhibited antifungal activity against the plant pathogen Agrobacterium tumefaciens and Magnaporthe oryzae. Whole-genome sequencing of this fungal strain revealed a genome size of 58,356,150 bp with 17,960 protein-coding genes, 539 tRNA genes, and 170 rRNA genes. Functional annotation identified a series of genes involved in the biosynthesis of secondary metabolites, including several gene clusters associated with antimicrobial activity. Notably, twenty of these gene clusters were associated with the synthesis of known bioactive compounds, including terpene, polyketides (PKS), nonribosomal peptides (NRPS), β-lactones, and phosphonates. Our findings suggest that Sarcopodium sp. QM3-1 could be a promising candidate as a biocontrol agent for combating plant pathogens in agricultural fields.
format Artículo científico
id pubmed_39855814
institution PubMed
language en
publishDate 2025
publisher Marine genomics
record_format pubmed
spellingShingle Complete genome sequence of the marine mangrove fungus Sarcopodium sp.QM3-1 confirmed its high potential for antimicrobial activity.
Zhang, Wenzhou
Ling, Minghuang
Zhang, Kai
Liu, Ruzhen
Huang, Xiaomei
Fan, Gaili
Grossart, Hans-Peter
Peng, Fei
Luo, Zhuhua
Genome, Fungal
Whole Genome Sequencing
Ascomycota
Complete genome sequence of the marine mangrove fungus Sarcopodium sp.QM3-1 confirmed its high potential for antimicrobial activity. Zhang, Wenzhou Ling, Minghuang Zhang, Kai Liu, Ruzhen Huang, Xiaomei Fan, Gaili Grossart, Hans-Peter Peng, Fei Luo, Zhuhua Genome, Fungal Whole Genome Sequencing Ascomycota Mangroves, owing to their unique living environment, serve as an important source of natural bioactive compounds. Sarcopodium sp. QM3-1, a marine fungus isolated from mangrove sediments of Quanzhou Bay, exhibited antifungal activity against the plant pathogen Agrobacterium tumefaciens and Magnaporthe oryzae. Whole-genome sequencing of this fungal strain revealed a genome size of 58,356,150 bp with 17,960 protein-coding genes, 539 tRNA genes, and 170 rRNA genes. Functional annotation identified a series of genes involved in the biosynthesis of secondary metabolites, including several gene clusters associated with antimicrobial activity. Notably, twenty of these gene clusters were associated with the synthesis of known bioactive compounds, including terpene, polyketides (PKS), nonribosomal peptides (NRPS), β-lactones, and phosphonates. Our findings suggest that Sarcopodium sp. QM3-1 could be a promising candidate as a biocontrol agent for combating plant pathogens in agricultural fields.
title Complete genome sequence of the marine mangrove fungus Sarcopodium sp.QM3-1 confirmed its high potential for antimicrobial activity.
topic Genome, Fungal
Whole Genome Sequencing
Ascomycota
url https://pubmed.ncbi.nlm.nih.gov/39855814/