Salvato in:
Dettagli Bibliografici
Autori principali: Li, Jin, Mao, Aihua, Peng, Chao, Li, Linhui, Li, Binghan, Zhou, Lijuan, Xu, Yan, Zhong, Mingqi, Hu, Zhong
Natura: Artículo científico
Lingua:en
Pubblicazione: Antonie van Leeuwenhoek 2025
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/40591017/
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1868266184094253057
author Li, Jin
Mao, Aihua
Peng, Chao
Li, Linhui
Li, Binghan
Zhou, Lijuan
Xu, Yan
Zhong, Mingqi
Hu, Zhong
author_facet Li, Jin
Mao, Aihua
Peng, Chao
Li, Linhui
Li, Binghan
Zhou, Lijuan
Xu, Yan
Zhong, Mingqi
Hu, Zhong
Li, Jin
Mao, Aihua
Peng, Chao
Li, Linhui
Li, Binghan
Zhou, Lijuan
Xu, Yan
Zhong, Mingqi
Hu, Zhong
collection PubMed - marine biology
contents Isolation and characterization of Polaribacter sargassicola sp. nov. and Algibacter ulvanivorans sp. nov.: two novel species with ability to degrade algal polysaccharides. Li, Jin Mao, Aihua Peng, Chao Li, Linhui Li, Binghan Zhou, Lijuan Xu, Yan Zhong, Mingqi Hu, Zhong Phylogeny RNA, Ribosomal, 16S Flavobacteriaceae Polysaccharides Base Composition DNA, Bacterial Fatty Acids Seaweed China Bacterial Typing Techniques Genome, Bacterial The genera Polaribacter and Algibacter, which are members of the Bacteroidota family Flavobacteriaceae, are well known for their arsenal of carbohydrate-active enzymes (CAZymes) and specialized polysaccharide utilization loci (PULs). In this study, two aerobic, gram-negative, and rod-shaped bacterial strains, designated strains DS7-9 and PT7-4, were isolated from the surface of seaweed collected from the coastal zone of Fujian Province, China. The two strains exhibited broad tolerance ranges to salinity (0-4%), temperature (10-40 °C) and pH (5.0-10.0). The predominant fatty acids in strain DS7-9 were iso-C (53.7%) and iso-C 3-OH (10.9%), whereas those in strain PT7-4 were iso-G-C (33.2%) and iso-C (27.1%). Additionally, the predominant menaquinone was MK-6. The 16S rRNA gene of strain DS7-9 shares 97.5% similarity with that of Polaribacter haliotis KCTC 52418, whereas that of strain PT7-4 is 97.0% sequence similarity with that of Algibacter mikhailovii KCTC 12710. Phylogenomic analysis revealed that the highest average nucleotide identity (ANI) value between strain DS7-9 and its closest relative reached 84.7%, whereas the corresponding value for strain PT7-4 was 84.2%. Genomic characterization revealed DNA G + C contents of 29.5% and 31.9% for strains DS7-9 and PT7-4, respectively. Both strains possessed complete circular chromosomes, with genome sizes of 3.7 Mb (DS7-9) and 3.5 Mb (PT7-4). Bioinformatic analysis revealed that strain DS7-9 harbors 5 PULs putatively associated with laminarin, ulvan, fucoidan, and alginate catabolism, whereas strain PT7-4 possesses 7 PULs predicted to target ulvan, alginate, and starch metabolism. On the basis of their distinct physiological characteristics, two strains are suggested for classification into novel species: Polaribacter sargassicola sp. nov. (type strain DS7-9 = MCCC 1K08670 = KCTC 102076) and Algibacter ulvanivorans sp. nov. (type strain PT7-4 = MCCC 1K08669 = KCTC 102077).
format Artículo científico
id pubmed_40591017
institution PubMed
language en
publishDate 2025
publisher Antonie van Leeuwenhoek
record_format pubmed
spellingShingle Isolation and characterization of Polaribacter sargassicola sp. nov. and Algibacter ulvanivorans sp. nov.: two novel species with ability to degrade algal polysaccharides.
Li, Jin
Mao, Aihua
Peng, Chao
Li, Linhui
Li, Binghan
Zhou, Lijuan
Xu, Yan
Zhong, Mingqi
Hu, Zhong
Phylogeny
RNA, Ribosomal, 16S
Flavobacteriaceae
Polysaccharides
Base Composition
DNA, Bacterial
Fatty Acids
Seaweed
China
Bacterial Typing Techniques
Genome, Bacterial
Isolation and characterization of Polaribacter sargassicola sp. nov. and Algibacter ulvanivorans sp. nov.: two novel species with ability to degrade algal polysaccharides. Li, Jin Mao, Aihua Peng, Chao Li, Linhui Li, Binghan Zhou, Lijuan Xu, Yan Zhong, Mingqi Hu, Zhong Phylogeny RNA, Ribosomal, 16S Flavobacteriaceae Polysaccharides Base Composition DNA, Bacterial Fatty Acids Seaweed China Bacterial Typing Techniques Genome, Bacterial The genera Polaribacter and Algibacter, which are members of the Bacteroidota family Flavobacteriaceae, are well known for their arsenal of carbohydrate-active enzymes (CAZymes) and specialized polysaccharide utilization loci (PULs). In this study, two aerobic, gram-negative, and rod-shaped bacterial strains, designated strains DS7-9 and PT7-4, were isolated from the surface of seaweed collected from the coastal zone of Fujian Province, China. The two strains exhibited broad tolerance ranges to salinity (0-4%), temperature (10-40 °C) and pH (5.0-10.0). The predominant fatty acids in strain DS7-9 were iso-C (53.7%) and iso-C 3-OH (10.9%), whereas those in strain PT7-4 were iso-G-C (33.2%) and iso-C (27.1%). Additionally, the predominant menaquinone was MK-6. The 16S rRNA gene of strain DS7-9 shares 97.5% similarity with that of Polaribacter haliotis KCTC 52418, whereas that of strain PT7-4 is 97.0% sequence similarity with that of Algibacter mikhailovii KCTC 12710. Phylogenomic analysis revealed that the highest average nucleotide identity (ANI) value between strain DS7-9 and its closest relative reached 84.7%, whereas the corresponding value for strain PT7-4 was 84.2%. Genomic characterization revealed DNA G + C contents of 29.5% and 31.9% for strains DS7-9 and PT7-4, respectively. Both strains possessed complete circular chromosomes, with genome sizes of 3.7 Mb (DS7-9) and 3.5 Mb (PT7-4). Bioinformatic analysis revealed that strain DS7-9 harbors 5 PULs putatively associated with laminarin, ulvan, fucoidan, and alginate catabolism, whereas strain PT7-4 possesses 7 PULs predicted to target ulvan, alginate, and starch metabolism. On the basis of their distinct physiological characteristics, two strains are suggested for classification into novel species: Polaribacter sargassicola sp. nov. (type strain DS7-9 = MCCC 1K08670 = KCTC 102076) and Algibacter ulvanivorans sp. nov. (type strain PT7-4 = MCCC 1K08669 = KCTC 102077).
title Isolation and characterization of Polaribacter sargassicola sp. nov. and Algibacter ulvanivorans sp. nov.: two novel species with ability to degrade algal polysaccharides.
topic Phylogeny
RNA, Ribosomal, 16S
Flavobacteriaceae
Polysaccharides
Base Composition
DNA, Bacterial
Fatty Acids
Seaweed
China
Bacterial Typing Techniques
Genome, Bacterial
url https://pubmed.ncbi.nlm.nih.gov/40591017/