Ecological and biotechnological importance of secondary metabolites produced by coral‐associated bacteria

Modolon, Flúvio; Barno, Adam; Villela, Helena; Peixoto, Raquel S.

doi:10.1111/jam.14766

Cited by 50 publications

(33 citation statements)

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“…We end by highlighting the importance and need for a global initiative to create an online catalog of genomic and physiological features of cultured coral-associated bacteria. Combining the use of these genomic insights with innovative culturing techniques ( 37 ), aimed at improving the collection of coral-associated bacterial isolates, will see this field of coral biology move forward. Such an initiative should likely start with those microbes which have their complete genomes sequenced.…”

Section: Discussionmentioning

confidence: 99%

“…Organismal, growth form, and tissue complexity create unique microenvironments that are thought to contribute to the high bacterial diversity often seen in corals ( 32 – 34 ). The diverse coral bacteriome plays an integral role in the balance between health and disease of the coral holobiont ( 35 , 36 ) and represents a valuable source of biotechnological products ( 37 , 38 ). Disalvo ( 39 ) was perhaps the first to isolate bacteria from coral in 1969, recovering strains from the skeletal regions of Porites lobata , followed by Ducklow and Mitchell ( 40 ) who reported on bacteria isolated from mucus of Porites astreoides and two octocoral species 10 years later.…”

Section: Introductionmentioning

confidence: 99%

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Insights into the Cultured Bacterial Fraction of Corals

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Insights into the Cultured Bacterial Fraction of Corals

et al. 2021

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“…Tissue compartmentalization and organismal complexity are thought to underlie high bacterial diversity in corals 26,27,28 . The diverse coral bacteriome plays an integral role in the balance between health and disease of the coral holobiont 29 and represents a valuable source of biotechnological products 30 . 31 was perhaps the first to actively isolate bacteria from coral, recovering strains from the skeletal regions of Porites lobata followed by 32 who reported on bacteria isolated from mucus of Porites astreoides and two soft coral species.…”

Section: Introductionmentioning

confidence: 99%

Insights into the cultured bacterial fraction of corals

Sweet

Villela

Keller‐Costa³

et al. 2020

Preprint

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Bacteria associated with coral hosts are diverse and abundant, with recent studies suggesting involvement of these symbionts in host resilience to anthropogenic stress. Despite the putative importance of bacteria, the work dedicated to culturing coral-associated bacteria has received little attention. Combining published and unpublished data, here we report a comprehensive overview of the diversity and function of culturable, coral-associated bacteria. A total of 3055 isolates from 52 studies were considered by our meta-survey. Of these, 1045 had full length 16S rRNA gene sequences, spanning 138 formally described and 12 putatively novel bacterial genera across the Proteobacteria, Firmicutes, Bacteroidetes, and Actinobacteria phyla. We performed comparative genomic analysis using the available genomes of 74 strains and identified potential signatures of beneficial bacterial-coral symbioses among them. Our analysis revealed >400 biosynthetic gene clusters that underlie the biosynthesis of antioxidant, antimicrobial, cytotoxic, and other secondary metabolites. Moreover, we uncovered genomic features - not previously described for coral-bacterial symbioses - involved in host colonization and host-symbiont recognition, antiviral defence mechanisms, and/or integrated metabolic interactions, which we suggest as novel targets for the screening of coral probiotics. Our results highlight the importance of bacterial cultures to elucidate coral holobiont functioning, and guide the selection of probiotic candidates to promote coral resilience and improve reef restoration efforts.

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“…Overall, these results feature the importance of polyphasic approaches in ecological and biotechnological studies. Moreover, it indicates the need for advanced techniques to cultivate micro-organisms, such as in situ, high-throughput, iChip, membrane-based diffusion, and other approaches [43,153]. These methods can enable recovery of a greater diversity and abundance of microbial isolates, which can be related to production of natural products with industrial and ecological interest [154][155][156][157].…”

Section: Discussionmentioning

confidence: 99%

“…These holobionts occupy niches that naturally select distinct microbial communities from the surrounding water [35][36][37]. Coral-associated micro-organism (CAM) assemblages are dynamic and vary according to several variables, including life stage, geographic location and environmental conditions as a means of adaptation/acclimation [38][39][40][41][42], constituting an endless source for prospecting for compounds with biotechnological potential [43,44]. As one of the most important variables selecting the CAM diversity and abundance is the species of coral host [35,45,46], different coral species should be sources of specific (and possibly new) enzymes.…”

Section: Introductionmentioning

confidence: 99%

Exploring the Diversity and Biotechnological Potential of Cultured and Uncultured Coral-Associated Bacteria

et al. 2021

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Coral-associated microbes are crucial for the biology of their hosts, contributing to nutrient cycling, adaptation, mitigation of toxic compounds, and biological control of pathogens. Natural products from coral-associated micro-organisms (CAM) may possess unique traits. Despite this, the use of CAM for biotechnological purposes has not yet been adequately explored. Here, we investigated the production of commercially important enzymes by 37 strains of bacteria isolated from the coral species Mussismilia braziliensis, Millepora alcicornis, and Porites astreoides. In-vitro enzymatic assays showed that up to 56% of the isolates produced at least one of the seven enzymes screened (lipase, caseinase, keratinase, cellulase, chitinase, amylase, and gelatinase); one strain, identified as Bacillus amyloliquefaciens produced all these enzymes. Additionally, coral species-specific cultured and uncultured microbial communities were identified. The phylum Firmicutes predominated among the isolates, including the genera Exiguobacterium, Bacillus, and Halomonas, among others. Next-generation sequencing and bacteria culturing produced similar but also complementary data, with certain genera detected only by one or the other method. Our results demonstrate the importance of exploring different coral species as sources of specific micro-organisms of biotechnological and industrial interest, at the same time reinforcing the economic and ecological importance of coral reefs as reservoirs of such diversity.

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Ecological and biotechnological importance of secondary metabolites produced by coral‐associated bacteria

Cited by 50 publications

References 159 publications

Insights into the Cultured Bacterial Fraction of Corals

Insights into the Cultured Bacterial Fraction of Corals

Insights into the cultured bacterial fraction of corals

Exploring the Diversity and Biotechnological Potential of Cultured and Uncultured Coral-Associated Bacteria

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