Biofilm-forming bacteria associated with corals secrete melanin with UV-absorption properties

Corals are colonized by a plethora of microorganisms, and their diversity plays a significant role in the health and resilience of corals when they face oxidative stress leading to bleaching. In the current study, we examined 238 bacteria isolated from five different coral species ( Acropora hyacint...

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Veröffentlicht in:	World journal of microbiology & biotechnology 2024-10, Vol.40 (10), p.313-313, Article 313
Hauptverfasser:	Ashraf, Nizam, Anas, Abdulaziz, Sukumaran, Vrinda, James, Jibin, Bilutheth, Mohammed Nowshad, Chekkillam, Abdul Riyas, Jasmin, C., Raj K., Devika, Babu, Idrees
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Schlagworte:	Absorption Acropora Animals Anthozoa - microbiology Applied Microbiology Azomonas Bacillus (bacteria) Bacteria Bacteria - classification Bacteria - genetics Bacteria - isolation & purification Bacteria - metabolism Biochemistry biofilm Biofilms Biofilms - growth & development Biomedical and Life Sciences Biotechnology Bleaching Brachybacterium Cedecea Citrobacter Coral reef ecosystems Coral Reefs Corals Crustacea Ecosystems Environmental Engineering/Biotechnology Halomonas India Life Sciences Melanin Melanins - metabolism Microbiology microbiome Microbiomes Microbiota Micrococcus Microorganisms Oxidative stress Pavona Phylogeny Probiotics Psychrobacter RNA, Ribosomal, 16S - genetics species Staphylococcus Ultraviolet Rays
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creator	Ashraf, Nizam Anas, Abdulaziz Sukumaran, Vrinda James, Jibin Bilutheth, Mohammed Nowshad Chekkillam, Abdul Riyas Jasmin, C. Raj K., Devika Babu, Idrees
description	Corals are colonized by a plethora of microorganisms, and their diversity plays a significant role in the health and resilience of corals when they face oxidative stress leading to bleaching. In the current study, we examined 238 bacteria isolated from five different coral species ( Acropora hyacinthus , Pocillopora damicornis , Podabacea crustacea , Porites lobata , and Pavona venosa ) collected from the coral reef ecosystems of Kavaratti, Lakshadweep Islands, India. We found that bacteria such as Psychrobacter sp., Halomonas sp., Kushneria sp., Staphylococcus sp., Bacillus sp., Brachybacterium sp., Citrobacter sp., and Salinicola sp. were commonly present in the corals. On the other hand, Qipengyuania sp., Faucicola sp., Marihabitans sp., Azomonas sp., Atlantibacter sp., Cedecea sp., Krasalinikoviella sp., and Aidingimonas sp. were not previously reported from the corals. Among the bacterial isolates, a significant number showed high levels of biofilm formation (118), UV absorption (119), and melanin production (127). Considering these properties, we have identified a combination of seven bacteria from the genera Halomonas sp., Psychrobacter sp., Krasalinikoviella sp., and Micrococcus sp. as a potential probiotic consortium for protecting corals from oxidative stress. Overall, this study provides valuable insights into the coral microbiome and opens up possibilities for microbiome-based interventions to protect these crucial ecosystems in the face of global environmental challenges.
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In the current study, we examined 238 bacteria isolated from five different coral species ( Acropora hyacinthus , Pocillopora damicornis , Podabacea crustacea , Porites lobata , and Pavona venosa ) collected from the coral reef ecosystems of Kavaratti, Lakshadweep Islands, India. We found that bacteria such as Psychrobacter sp., Halomonas sp., Kushneria sp., Staphylococcus sp., Bacillus sp., Brachybacterium sp., Citrobacter sp., and Salinicola sp. were commonly present in the corals. On the other hand, Qipengyuania sp., Faucicola sp., Marihabitans sp., Azomonas sp., Atlantibacter sp., Cedecea sp., Krasalinikoviella sp., and Aidingimonas sp. were not previously reported from the corals. Among the bacterial isolates, a significant number showed high levels of biofilm formation (118), UV absorption (119), and melanin production (127). Considering these properties, we have identified a combination of seven bacteria from the genera Halomonas sp., Psychrobacter sp., Krasalinikoviella sp., and Micrococcus sp. as a potential probiotic consortium for protecting corals from oxidative stress. 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Considering these properties, we have identified a combination of seven bacteria from the genera Halomonas sp., Psychrobacter sp., Krasalinikoviella sp., and Micrococcus sp. as a potential probiotic consortium for protecting corals from oxidative stress. Overall, this study provides valuable insights into the coral microbiome and opens up possibilities for microbiome-based interventions to protect these crucial ecosystems in the face of global environmental challenges.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><pmid>39210155</pmid><doi>10.1007/s11274-024-04120-w</doi><tpages>1</tpages></addata></record>
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subjects	Absorption Acropora Animals Anthozoa - microbiology Applied Microbiology Azomonas Bacillus (bacteria) Bacteria Bacteria - classification Bacteria - genetics Bacteria - isolation & purification Bacteria - metabolism Biochemistry biofilm Biofilms Biofilms - growth & development Biomedical and Life Sciences Biotechnology Bleaching Brachybacterium Cedecea Citrobacter Coral reef ecosystems Coral Reefs Corals Crustacea Ecosystems Environmental Engineering/Biotechnology Halomonas India Life Sciences Melanin Melanins - metabolism Microbiology microbiome Microbiomes Microbiota Micrococcus Microorganisms Oxidative stress Pavona Phylogeny Probiotics Psychrobacter RNA, Ribosomal, 16S - genetics species Staphylococcus Ultraviolet Rays
title	Biofilm-forming bacteria associated with corals secrete melanin with UV-absorption properties
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