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Main Authors: Zeng, Xiang, Chen, Jianwei, Liu, Guilin, Zhou, Yadong, Wang, Liping, Zhang, Yaolei, Liu, Shanshan, Shao, Zongze
Format: Artículo científico
Language:en
Published: Biology 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40906071/
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author Zeng, Xiang
Chen, Jianwei
Liu, Guilin
Zhou, Yadong
Wang, Liping
Zhang, Yaolei
Liu, Shanshan
Shao, Zongze
author_facet Zeng, Xiang
Chen, Jianwei
Liu, Guilin
Zhou, Yadong
Wang, Liping
Zhang, Yaolei
Liu, Shanshan
Shao, Zongze
Zeng, Xiang
Chen, Jianwei
Liu, Guilin
Zhou, Yadong
Wang, Liping
Zhang, Yaolei
Liu, Shanshan
Shao, Zongze
collection PubMed - marine biology
contents Host Shaping Associated Microbiota in Hydrothermal Vent Snails from the Indian Ocean Ridge. Zeng, Xiang Chen, Jianwei Liu, Guilin Zhou, Yadong Wang, Liping Zhang, Yaolei Liu, Shanshan Shao, Zongze Snails at hydrothermal vents rely on symbiotic bacteria for nutrition; however, the specifics of these associations in adapting to such extreme environments remain underexplored. This study investigated the community structure and metabolic potential of bacteria associated with two Indian Ocean vent snails, and . Using microscopic, phylogenetic, and metagenomic analyses, this study examines bacterial communities inhabiting the foot and gland tissues of these snails. exhibited exceptionally low bacterial diversity (Shannon index 0.14-0.18), primarily Gammaproteobacteria (99.9%), including chemosynthetic sulfur-oxidizing Chromatiales using Calvin-Benson-Bassham cycle and methane-oxidizing Methylococcales in the glands. hosted significantly more diverse symbionts (Shannon indices 1.32-4.60). Its black variety scales were dominated by Campylobacterota (67.01-80.98%), such as , which perform sulfur/hydrogen oxidation via the reductive tricarboxylic acid cycle, with both Campylobacterota and Gammaproteobacteria prevalent in the glands. The white-scaled variety of had less Campylobacterota but a higher diversity of heterotrophic bacteria, including Delta-/Alpha-Proteobacteria, Bacteroidetes, and Firmicutes (classified as Desulfobacterota, Pseudomomonadota, Bacteroidota, and in GTDB taxonomy). In , Gammaproteobacteria, including Chromatiales, Thiotrichales, and a novel order "Endothiobacterales," were chemosynthetic, capable of oxidizing sulfur, hydrogen, or iron, and utilizing the Calvin-Benson-Bassham cycle for carbon fixation. Heterotrophic Delta- and Alpha-Proteobacteria, Bacteroidetes, and Firmicutes potentially utilize organic matter from protein, starch, collagen, amino acids, thereby contributing to the holobiont community and host nutrition accessibility. The results indicate that host species and intra-species variation, rather than the immediate habitat, might shape the symbiotic microbial communities, crucial for the snails' adaptation to vent ecosystems.
format Artículo científico
id pubmed_40906071
institution PubMed
language en
publishDate 2025
publisher Biology
record_format pubmed
spellingShingle Host Shaping Associated Microbiota in Hydrothermal Vent Snails from the Indian Ocean Ridge.
Zeng, Xiang
Chen, Jianwei
Liu, Guilin
Zhou, Yadong
Wang, Liping
Zhang, Yaolei
Liu, Shanshan
Shao, Zongze
Host Shaping Associated Microbiota in Hydrothermal Vent Snails from the Indian Ocean Ridge. Zeng, Xiang Chen, Jianwei Liu, Guilin Zhou, Yadong Wang, Liping Zhang, Yaolei Liu, Shanshan Shao, Zongze Snails at hydrothermal vents rely on symbiotic bacteria for nutrition; however, the specifics of these associations in adapting to such extreme environments remain underexplored. This study investigated the community structure and metabolic potential of bacteria associated with two Indian Ocean vent snails, and . Using microscopic, phylogenetic, and metagenomic analyses, this study examines bacterial communities inhabiting the foot and gland tissues of these snails. exhibited exceptionally low bacterial diversity (Shannon index 0.14-0.18), primarily Gammaproteobacteria (99.9%), including chemosynthetic sulfur-oxidizing Chromatiales using Calvin-Benson-Bassham cycle and methane-oxidizing Methylococcales in the glands. hosted significantly more diverse symbionts (Shannon indices 1.32-4.60). Its black variety scales were dominated by Campylobacterota (67.01-80.98%), such as , which perform sulfur/hydrogen oxidation via the reductive tricarboxylic acid cycle, with both Campylobacterota and Gammaproteobacteria prevalent in the glands. The white-scaled variety of had less Campylobacterota but a higher diversity of heterotrophic bacteria, including Delta-/Alpha-Proteobacteria, Bacteroidetes, and Firmicutes (classified as Desulfobacterota, Pseudomomonadota, Bacteroidota, and in GTDB taxonomy). In , Gammaproteobacteria, including Chromatiales, Thiotrichales, and a novel order "Endothiobacterales," were chemosynthetic, capable of oxidizing sulfur, hydrogen, or iron, and utilizing the Calvin-Benson-Bassham cycle for carbon fixation. Heterotrophic Delta- and Alpha-Proteobacteria, Bacteroidetes, and Firmicutes potentially utilize organic matter from protein, starch, collagen, amino acids, thereby contributing to the holobiont community and host nutrition accessibility. The results indicate that host species and intra-species variation, rather than the immediate habitat, might shape the symbiotic microbial communities, crucial for the snails' adaptation to vent ecosystems.
title Host Shaping Associated Microbiota in Hydrothermal Vent Snails from the Indian Ocean Ridge.
url https://pubmed.ncbi.nlm.nih.gov/40906071/