Saved in:
Bibliographic Details
Main Authors: Wang, Ming-Chen, Wang, Zhi-Qing, Liu, Jia-Rong, Wang, Na, Li, Zhen-Kun, Li, Fei-Fei, Sang, Yu-Han, Fu, Hui-Hui
Format: Artículo científico
Language:en
Published: Marine genomics 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40381272/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266203982594048
author Wang, Ming-Chen
Wang, Zhi-Qing
Liu, Jia-Rong
Wang, Na
Li, Zhen-Kun
Li, Fei-Fei
Sang, Yu-Han
Fu, Hui-Hui
author_facet Wang, Ming-Chen
Wang, Zhi-Qing
Liu, Jia-Rong
Wang, Na
Li, Zhen-Kun
Li, Fei-Fei
Sang, Yu-Han
Fu, Hui-Hui
Wang, Ming-Chen
Wang, Zhi-Qing
Liu, Jia-Rong
Wang, Na
Li, Zhen-Kun
Li, Fei-Fei
Sang, Yu-Han
Fu, Hui-Hui
collection PubMed - marine biology
contents Complete genome sequence of Alteromonas sp. OM2203, a marine bacterium degrading Ulva prolifera polysaccharides. Wang, Ming-Chen Wang, Zhi-Qing Liu, Jia-Rong Wang, Na Li, Zhen-Kun Li, Fei-Fei Sang, Yu-Han Fu, Hui-Hui Ulva Alteromonas Genome, Bacterial Polysaccharides Whole Genome Sequencing China Seawater Edible Seaweeds Green algae Ulva prolifera cause successive green tides in the Yellow Sea, China, leading to harmful ecological impacts and economic losses. Bacterial degradation of U. prolifera polysaccharides could accelerate the breakdown of its biomass and transition to the waning phase of green tides. In this study, the strain Alteromonas sp. OM2203 was isolated from seawater samples in the coastal area of Qingdao during a U. prolifera bloom. The genome of strain OM2203 contains one circular chromosome totaling 4,556,409 bp, with a mean GC content of 44.05%. Genomic analysis revealed that Alteromonas sp. OM2203 contains 6 ulvan lyase genes, indicating its potential to degrade U. prolifera polysaccharides and expedite the decomposition of algal biomass. Collectively, the genome of Alteromonas sp. OM2203 provides insights into the role of Alteromonas bacteria in U. prolifera polysaccharide degradation.
format Artículo científico
id pubmed_40381272
institution PubMed
language en
publishDate 2025
publisher Marine genomics
record_format pubmed
spellingShingle Complete genome sequence of Alteromonas sp. OM2203, a marine bacterium degrading Ulva prolifera polysaccharides.
Wang, Ming-Chen
Wang, Zhi-Qing
Liu, Jia-Rong
Wang, Na
Li, Zhen-Kun
Li, Fei-Fei
Sang, Yu-Han
Fu, Hui-Hui
Ulva
Alteromonas
Genome, Bacterial
Polysaccharides
Whole Genome Sequencing
China
Seawater
Edible Seaweeds
Complete genome sequence of Alteromonas sp. OM2203, a marine bacterium degrading Ulva prolifera polysaccharides. Wang, Ming-Chen Wang, Zhi-Qing Liu, Jia-Rong Wang, Na Li, Zhen-Kun Li, Fei-Fei Sang, Yu-Han Fu, Hui-Hui Ulva Alteromonas Genome, Bacterial Polysaccharides Whole Genome Sequencing China Seawater Edible Seaweeds Green algae Ulva prolifera cause successive green tides in the Yellow Sea, China, leading to harmful ecological impacts and economic losses. Bacterial degradation of U. prolifera polysaccharides could accelerate the breakdown of its biomass and transition to the waning phase of green tides. In this study, the strain Alteromonas sp. OM2203 was isolated from seawater samples in the coastal area of Qingdao during a U. prolifera bloom. The genome of strain OM2203 contains one circular chromosome totaling 4,556,409 bp, with a mean GC content of 44.05%. Genomic analysis revealed that Alteromonas sp. OM2203 contains 6 ulvan lyase genes, indicating its potential to degrade U. prolifera polysaccharides and expedite the decomposition of algal biomass. Collectively, the genome of Alteromonas sp. OM2203 provides insights into the role of Alteromonas bacteria in U. prolifera polysaccharide degradation.
title Complete genome sequence of Alteromonas sp. OM2203, a marine bacterium degrading Ulva prolifera polysaccharides.
topic Ulva
Alteromonas
Genome, Bacterial
Polysaccharides
Whole Genome Sequencing
China
Seawater
Edible Seaweeds
url https://pubmed.ncbi.nlm.nih.gov/40381272/