Farid Menaa1, P A U I Wijesinghe2, Gobika Thiripuranathar2, Bushra Uzair3, Haroon Iqbal4, Barkat Ali Khan5, Bouzid Menaa1. 1. Department of Nanomedicine, California Innovations Corporation, San Diego, CA 92037, USA. 2. College of Chemical Sciences, Institute of Chemistry Ceylon, Rajagiriya 10107, Sri Lanka. 3. Department of Biological Sciences, International Islamic University, Islamabad 44000, Pakistan. 4. Department of Pharmaceutics, College of Pharmaceutical Sciences, Soochow University, Suzhou 215123, China. 5. Department of Pharmacy, Gomal University, Dera Ismail Khan 29050, Pakistan.
Abstract
Seaweeds are broadly distributed and represent an important source of secondary metabolites (e.g., halogenated compounds, polyphenols) eliciting various pharmacological activities and playing a relevant ecological role in the anti-epibiosis. Importantly, host (as known as basibiont such as algae)-microbe (as known as epibiont such as bacteria) interaction (as known as halobiont) is a driving force for coevolution in the marine environment. Nevertheless, halobionts may be fundamental (harmless) or detrimental (harmful) to the functioning of the host. In addition to biotic factors, abiotic factors (e.g., pH, salinity, temperature, nutrients) regulate halobionts. Spatiotemporal and functional exploration of such dynamic interactions appear crucial. Indeed, environmental stress in a constantly changing ocean may disturb complex mutualistic relations, through mechanisms involving host chemical defense strategies (e.g., secretion of secondary metabolites and antifouling chemicals by quorum sensing). It is worth mentioning that many of bioactive compounds, such as terpenoids, previously attributed to macroalgae are in fact produced or metabolized by their associated microorganisms (e.g., bacteria, fungi, viruses, parasites). Eventually, recent metagenomics analyses suggest that microbes may have acquired seaweed associated genes because of increased seaweed in diets. This article retrospectively reviews pertinent studies on the spatiotemporal and functional seaweed-associated microbiota interactions which can lead to the production of bioactive compounds with high antifouling, theranostic, and biotechnological potential.
Seaweeds are broadly distributed and represent an important source of sen class="Chemical">condary metabolites (e.g., halogenated compounds, polyphenols) eliciting various pharmacological activities and playing a relevant ecological role in the anti-epibiosis. Importantly, host (as known as basibiont such as algae)-microbe (as known as epibiont such as bacteria) interaction (as known as halobiont) is a driving force for coevolution in the marine environment. Nevertheless, halobionts may be fundamental (harmless) or detrimental (harmful) to the functioning of the host. In addition to biotic factors, abiotic factors (e.g., pH, salinity, temperature, nutrients) regulate halobionts. Spatiotemporal and functional exploration of such dynamic interactions appear crucial. Indeed, environmental stress in a constantly changing ocean may disturb complex mutualistic relations, through mechanisms involving host chemical defense strategies (e.g., secretion of secondary metabolites and antifouling chemicals by quorum sensing). It is worth mentioning that many of bioactive compounds, such as terpenoids, previously attributed to macroalgae are in fact produced or metabolized by their associated microorganisms (e.g., bacteria, fungi, viruses, parasites). Eventually, recent metagenomics analyses suggest that microbes may have acquired seaweed associated genes because of increased seaweed in diets. This article retrospectively reviews pertinent studies on the spatiotemporal and functional seaweed-associated microbiota interactions which can lead to the production of bioactive compounds with high antifouling, theranostic, and biotechnological potential.
Authors: Hossam S El-Beltagi; Amal A Mohamed; Heba I Mohamed; Khaled M A Ramadan; Aminah A Barqawi; Abdallah Tageldein Mansour Journal: Mar Drugs Date: 2022-05-24 Impact factor: 6.085
Authors: Carolina P Rocha; Diana Pacheco; João Cotas; João C Marques; Leonel Pereira; Ana M M Gonçalves Journal: Int J Environ Res Public Health Date: 2021-05-07 Impact factor: 3.390