Taxonomic Description and Complete Genome Sequencing of Pseudomonas silvicola sp. nov. Isolated from Cunninghamia laceolata

The Pseudomonas strain T1-3-2T isolated from the cone of Cunninghamia laceolata exhibited growth-promoting and antifungal activity. Strain T1-3-2T was characterized by a polyphasic taxonomy and complete genome sequencing analysis to explore its taxonomic position and biocontrol potentials fully. The...

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Bibliographic Details
Published in:Forests 2023-06, Vol.14 (6), p.1089
Main Authors: Tian, Longyan, Zhang, Yanfeng, Yang, Hua, Zhao, Qian, Qiu, Hualong, Xu, Jinzhu, Qin, Changsheng
Format: Article
Language:English
Subjects:
Antifungal activity
Bioinformatics
Biological control
Biosynthesis
Chromosomes
Circular DNA
Cunninghamia
Deoxyribonucleic acid
DNA
Fatty acids
Flagella
Fungicides
Gene sequencing
Genes
genome
Genomes
Genomic analysis
Hybridization
Metabolites
Molecular modelling
New species
Nucleotides
Phylogenetics
Plant growth
Plasmids
Pseudomonas
Pyoverdines
Quinones
Sequence analysis
Siderophores
Strain analysis
taxonomic description
Taxonomy
Trees
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Summary:The Pseudomonas strain T1-3-2T isolated from the cone of Cunninghamia laceolata exhibited growth-promoting and antifungal activity. Strain T1-3-2T was characterized by a polyphasic taxonomy and complete genome sequencing analysis to explore its taxonomic position and biocontrol potentials fully. The results revealed that strain T1-3-2T shares a high degree of similarity with Pseudomonas eucalypticola and is distinct from any known Pseudomonas species. The G + C content was 61.65%, and the difference was greater than 1 compared to “P. eucalypticola”. Additionally, values of the average nucleotide identity blast (ANIb), average nucleotide identity MUMmer (ANIm), and DNA-DNA hybridization (DDH) between T1-3-2T and its closest known related species, “P. eucalypticola”, were below the thresholds necessary for species delineation. Furthermore, the T1-3-2T strain exhibited the distinctions with the multiple polar flagella and the specific quinone system with MK8 compared with that of “P. eucalypticola”. Collectively, these findings affirm the designation of strain T1-3-2T as a new Pseudomonas species, proposed to be named Pseudomonas silvicola, with T1-3-2T as the type strain. Genomic analyses revealed strain T1-3-2T contains three circular DNA contigs, including a 7,613,303 bp chromosome and two plasmids (952,764 bp and 84,880 bp). Bioinformatics analyses further offered potential insight into the molecular mechanisms whereby this strain can promote plant growth and control disease, revealing encoded genes related to antibiotic and secondary metabolite production, the uptake and biosynthesis of siderophores, and pyoverdine biosynthesis. These genomic data offer a valuable foundation for future efforts to apply the T1-3-2T strain in research contexts.
ISSN:1999-4907
1999-4907
DOI:10.3390/f14061089