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Autori principali: Tang, Xiaoyu, Guo, Xiangrui, Wang, Hanzhang, Yang, Qingsong, Zhang, Ying, Ling, Juan, Sun, Hao, Dong, Junde, Zhang, Yanying
Natura: Artículo científico
Lingua:en
Pubblicazione: Frontiers in microbiology 2025
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41568056/
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author Tang, Xiaoyu
Guo, Xiangrui
Wang, Hanzhang
Yang, Qingsong
Zhang, Ying
Ling, Juan
Sun, Hao
Dong, Junde
Zhang, Yanying
author_facet Tang, Xiaoyu
Guo, Xiangrui
Wang, Hanzhang
Yang, Qingsong
Zhang, Ying
Ling, Juan
Sun, Hao
Dong, Junde
Zhang, Yanying
Tang, Xiaoyu
Guo, Xiangrui
Wang, Hanzhang
Yang, Qingsong
Zhang, Ying
Ling, Juan
Sun, Hao
Dong, Junde
Zhang, Yanying
collection PubMed - marine biology
contents Elaborating the molecular characteristics of corals' different tolerance to environmental stress in Sanya Luhuitou based on multi-omics analysis. Tang, Xiaoyu Guo, Xiangrui Wang, Hanzhang Yang, Qingsong Zhang, Ying Ling, Juan Sun, Hao Dong, Junde Zhang, Yanying The resistance to environmental perturbations varies significantly among coral species. Corals are holobionts that are symbiotic with dinoflagellates and microbiomes, which makes their physiological responses to environmental stress complex. In order to restore coral reefs, it is essential to discover the molecular characteristics associated with coral environmental stress tolerance and to understand the molecular mechanisms that contribute to physiological adaptation. Using high throughput 16S rRNA gene sequencing, combined with transcriptome, proteome, and metabolome analyses, we analyzed the differences in coral associated bacterial communities between the branching coral () and massive corals ( and ), as well as the profiling of environmental stress resistance related genes, proteins and metabolites in these coral species. The results showed that beneficial bacteria were more abundant in massive corals than in branching corals, while pathogenic bacteria were more abundant in branching corals. Genes and proteins that can counteract environmental stress were found more abundant in branching corals as compared to massive corals. Branching corals contained higher levels of metabolites associated with environmental stress, such as LysoPC (15:0). Massive corals possess simultaneously higher basal expression genes (or proteins) involved in amino acid metabolism, which may contribute to their higher tolerance. Based on molecular characteristics, branching corals' resistance to environmental stress was weaker than that of massive corals, which provided a valuable reference for coral reef protection in the future.
format Artículo científico
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institution PubMed
language en
publishDate 2025
publisher Frontiers in microbiology
record_format pubmed
spellingShingle Elaborating the molecular characteristics of corals' different tolerance to environmental stress in Sanya Luhuitou based on multi-omics analysis.
Tang, Xiaoyu
Guo, Xiangrui
Wang, Hanzhang
Yang, Qingsong
Zhang, Ying
Ling, Juan
Sun, Hao
Dong, Junde
Zhang, Yanying
Elaborating the molecular characteristics of corals' different tolerance to environmental stress in Sanya Luhuitou based on multi-omics analysis. Tang, Xiaoyu Guo, Xiangrui Wang, Hanzhang Yang, Qingsong Zhang, Ying Ling, Juan Sun, Hao Dong, Junde Zhang, Yanying The resistance to environmental perturbations varies significantly among coral species. Corals are holobionts that are symbiotic with dinoflagellates and microbiomes, which makes their physiological responses to environmental stress complex. In order to restore coral reefs, it is essential to discover the molecular characteristics associated with coral environmental stress tolerance and to understand the molecular mechanisms that contribute to physiological adaptation. Using high throughput 16S rRNA gene sequencing, combined with transcriptome, proteome, and metabolome analyses, we analyzed the differences in coral associated bacterial communities between the branching coral () and massive corals ( and ), as well as the profiling of environmental stress resistance related genes, proteins and metabolites in these coral species. The results showed that beneficial bacteria were more abundant in massive corals than in branching corals, while pathogenic bacteria were more abundant in branching corals. Genes and proteins that can counteract environmental stress were found more abundant in branching corals as compared to massive corals. Branching corals contained higher levels of metabolites associated with environmental stress, such as LysoPC (15:0). Massive corals possess simultaneously higher basal expression genes (or proteins) involved in amino acid metabolism, which may contribute to their higher tolerance. Based on molecular characteristics, branching corals' resistance to environmental stress was weaker than that of massive corals, which provided a valuable reference for coral reef protection in the future.
title Elaborating the molecular characteristics of corals' different tolerance to environmental stress in Sanya Luhuitou based on multi-omics analysis.
url https://pubmed.ncbi.nlm.nih.gov/41568056/