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Autori principali: Wang, Rui, Wang, Jiahua, Wang, Ling, Cai, Yulun, Wang, Yuan, Luo, Huifang, Chen, Bing, Chen, Junlv, Fang, Jiasong, Song, Zengfu
Natura: Artículo científico
Lingua:en
Pubblicazione: Scientific reports 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40603380/
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author Wang, Rui
Wang, Jiahua
Wang, Ling
Cai, Yulun
Wang, Yuan
Luo, Huifang
Chen, Bing
Chen, Junlv
Fang, Jiasong
Song, Zengfu
author_facet Wang, Rui
Wang, Jiahua
Wang, Ling
Cai, Yulun
Wang, Yuan
Luo, Huifang
Chen, Bing
Chen, Junlv
Fang, Jiasong
Song, Zengfu
Wang, Rui
Wang, Jiahua
Wang, Ling
Cai, Yulun
Wang, Yuan
Luo, Huifang
Chen, Bing
Chen, Junlv
Fang, Jiasong
Song, Zengfu
collection PubMed - marine biology
contents A novel eco-friendly Acinetobacter strain A1-4-2 for bioremediation of aquatic pollutants. Wang, Rui Wang, Jiahua Wang, Ling Cai, Yulun Wang, Yuan Luo, Huifang Chen, Bing Chen, Junlv Fang, Jiasong Song, Zengfu Acinetobacter Biodegradation, Environmental Animals Water Pollutants, Chemical Zebrafish Phylogeny Metagenomics The increasing accumulation of hydrocarbons and aromatic compounds in aquatic ecosystems, stemming from anthropogenic activities, poses severe ecological challenges, including disrupting biodiversity and threatening human health through the food chain. This study presents Acinetobacter strain A1-4-2, isolated from a hairy crab farming base, which could represent a novel Acinetobacter species. The metagenomic analysis of approximately 12,000 publicly available datasets revealed that this novel Acinetobacter species is widely distributed across various environments, particularly in those with high organic matter content, such as sludge, feces, and wastewater. Strain A1-4-2 exhibited exceptional metabolic capabilities, effectively degrading a diverse range of substrates, including amino acids, organic acids, oils, n-alkanes, lignin, and aromatic monomers. Genomic analysis, coupled with biological experiments, revealed that strain A1-4-2 exhibited resistance to a very limited kind of antibiotics. Moreover, the strain's biosafety, affirmed through zebrafish toxicity assays, underscores its suitability for environmental release. Additionally, the feasibility of genetic manipulation of strain A1-4-2 gives it the potential to become a chassis cell, enabling it to degrade organic pollutants more efficiently through genetic engineering. Our findings elucidate the strain's genomic and metabolic attributes, offering insights into its biodegradation potentials and developing effective strategies for ecological restoration in face of pollution.
format Artículo científico
id pubmed_40603380
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle A novel eco-friendly Acinetobacter strain A1-4-2 for bioremediation of aquatic pollutants.
Wang, Rui
Wang, Jiahua
Wang, Ling
Cai, Yulun
Wang, Yuan
Luo, Huifang
Chen, Bing
Chen, Junlv
Fang, Jiasong
Song, Zengfu
Acinetobacter
Biodegradation, Environmental
Animals
Water Pollutants, Chemical
Zebrafish
Phylogeny
Metagenomics
A novel eco-friendly Acinetobacter strain A1-4-2 for bioremediation of aquatic pollutants. Wang, Rui Wang, Jiahua Wang, Ling Cai, Yulun Wang, Yuan Luo, Huifang Chen, Bing Chen, Junlv Fang, Jiasong Song, Zengfu Acinetobacter Biodegradation, Environmental Animals Water Pollutants, Chemical Zebrafish Phylogeny Metagenomics The increasing accumulation of hydrocarbons and aromatic compounds in aquatic ecosystems, stemming from anthropogenic activities, poses severe ecological challenges, including disrupting biodiversity and threatening human health through the food chain. This study presents Acinetobacter strain A1-4-2, isolated from a hairy crab farming base, which could represent a novel Acinetobacter species. The metagenomic analysis of approximately 12,000 publicly available datasets revealed that this novel Acinetobacter species is widely distributed across various environments, particularly in those with high organic matter content, such as sludge, feces, and wastewater. Strain A1-4-2 exhibited exceptional metabolic capabilities, effectively degrading a diverse range of substrates, including amino acids, organic acids, oils, n-alkanes, lignin, and aromatic monomers. Genomic analysis, coupled with biological experiments, revealed that strain A1-4-2 exhibited resistance to a very limited kind of antibiotics. Moreover, the strain's biosafety, affirmed through zebrafish toxicity assays, underscores its suitability for environmental release. Additionally, the feasibility of genetic manipulation of strain A1-4-2 gives it the potential to become a chassis cell, enabling it to degrade organic pollutants more efficiently through genetic engineering. Our findings elucidate the strain's genomic and metabolic attributes, offering insights into its biodegradation potentials and developing effective strategies for ecological restoration in face of pollution.
title A novel eco-friendly Acinetobacter strain A1-4-2 for bioremediation of aquatic pollutants.
topic Acinetobacter
Biodegradation, Environmental
Animals
Water Pollutants, Chemical
Zebrafish
Phylogeny
Metagenomics
url https://pubmed.ncbi.nlm.nih.gov/40603380/