Abstract
Thalassospira bacteria are widespread and have been isolated from various marine environments. Less is known about their genetic diversity and biogeography, as well as their role in marine environments, many of them cannot be discriminated merely using the 16S rRNA gene. To address these issues, in this report, the phylogenetic analysis of 58 strains from seawater and deep sea sediments were carried out using the multilocus sequence analysis (MLSA) based on acsA, aroE, gyrB, mutL, rpoD and trpB genes, and the DNA-DNA hybridization (DDH) and average nucleotide identity (ANI) based on genome sequences. The MLSA analysis demonstrated that the 58 strains were clearly separated into 15 lineages, corresponding to seven validly described species and eight potential novel species. The DDH and ANI values further confirmed the validity of the MLSA analysis and eight potential novel species. The MLSA interspecies gap of the genus Thalassospira was determined to be 96.16–97.12% sequence identity on the basis of the combined analyses of the DDH and MLSA, while the ANIm interspecies gap was 95.76–97.20% based on the in silico DDH analysis. Meanwhile, phylogenetic analyses showed that the Thalassospira bacteria exhibited distribution pattern to a certain degree according to geographic regions. Moreover, they clustered together according to the habitats depth. For short, the phylogenetic analyses and biogeography of the Thalassospira bacteria were systematically investigated for the first time. These results will be helpful to explore further their ecological role and adaptive evolution in marine environments.
Highlights
Thalassospira are a genus consisting of Gram-negative, motile, vibrio- or spiral-shaped, halotolerant and chemoheterotrophic bacteria belonging to the family Rhodospirillaceae within the class Alphaproteobacteria and was created by Lopez-Lopez et al in 2002 [1]
Measure substitution saturation of the 16S rRNA gene with data analysis in molecular biology and evolution (DAMBE) indicated that little saturation existed
The 16S rRNA gene was inappropriate for the phylogenetic analysis of the genus Thalassospira
Summary
Thalassospira are a genus consisting of Gram-negative, motile, vibrio- or spiral-shaped, halotolerant and chemoheterotrophic bacteria belonging to the family Rhodospirillaceae within the class Alphaproteobacteria and was created by Lopez-Lopez et al in 2002 [1]. We found that bacteria of Thalassospira were widespread in the marine environments and occupied a variety of ecological niches, such as surface and deep seawater, deep sediment, halobios etc, covering the Pacific Ocean, the Atlantic Ocean, the Indian Ocean and even the Arctic Ocean [8,9,10,11]. They aroused extensive attention because of their potential in eliminating marine oil pollution, especially in polycyclic aromatic hydrocarbons (PAHs) degradation [3,4,7,12]. Accumulation of these bacteria with different functions and originations urges analysis on their diversity, evolution and geographic distribution
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