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      Smart utilization of betaine lipids in the giant clam Tridacna crocea

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          Summary

          The giant clam Tridacna crocea thrives in poorly nourished coral reef water by forming a holobiont with zooxanthellae and utilizing photosynthetic products of the symbiont. However, detailed metabolic crosstalk between clams and symbionts is elusive. Here, we discovered that the nonphosphorous microalgal betaine lipid DGCC (diacylglycerylcarboxy-hydroxymethylcholine) and its deacylated derivative GCC are present in all tissues and organs, including algae-free sperm and eggs, and are metabolized. Colocalization of DGCC and PC (phosphatidylcholine) evidenced by MS imaging suggested that DGCC functions as a PC substitute. The high content of GCC in digestive diverticula (DD) suggests that the algal DGCC was digested in DD for further utilization. Lipidomics analysis showing the organ-specific distribution pattern of DGCC species suggests active utilization of DGCC as membrane lipids in the clam. Thus, the utilization of zooxanthellal DGCC in animal cells is a unique evolutionary outcome in phosphorous-deficient coral reef waters.

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          Highlights

          • Giant clams rely on symbiosis with zooxanthellae dinoflagellates for nutrients

          • Giant clams contain DGCC, a nonphosphorus membrane lipid of zooxanthellae origin

          • Giant clams metabolize and utilize DGCC in all tissues and organs

          Abstract

          Marine organism; Biological sciences; Biochemistry

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          Most cited references46

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          MS-DIAL: Data Independent MS/MS Deconvolution for Comprehensive Metabolome Analysis

          Hiroshi Tsugawa, Tomas Cajka, Tobias Kind (2015)
          Data-independent acquisition (DIA) in liquid chromatography tandem mass spectrometry (LC-MS/MS) provides more comprehensive untargeted acquisition of molecular data. Here we provide an open-source software pipeline, MS-DIAL, to demonstrate how DIA improves simultaneous identification and quantification of small molecules by mass spectral deconvolution. For reversed phase LC-MS/MS, our program with an enriched LipidBlast library identified total 1,023 lipid compounds from nine algal strains to highlight their chemotaxonomic relationships.
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            Surviving in a marine desert: the sponge loop retains resources within coral reefs.

            Jasper M. de Goeij, Dick van Oevelen, Mark Vermeij (2013)
            Ever since Darwin's early descriptions of coral reefs, scientists have debated how one of the world's most productive and diverse ecosystems can thrive in the marine equivalent of a desert. It is an enigma how the flux of dissolved organic matter (DOM), the largest resource produced on reefs, is transferred to higher trophic levels. Here we show that sponges make DOM available to fauna by rapidly expelling filter cells as detritus that is subsequently consumed by reef fauna. This "sponge loop" was confirmed in aquarium and in situ food web experiments, using (13)C- and (15)N-enriched DOM. The DOM-sponge-fauna pathway explains why biological hot spots such as coral reefs persist in oligotrophic seas--the reef's paradox--and has implications for reef ecosystem functioning and conservation strategies.
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              Flexibility and Specificity in Coral-Algal Symbiosis: Diversity, Ecology, and Biogeography ofSymbiodinium

              Andrew Baker (2003)
              Article 0 comments Cited 100 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Ryuichi Sakai
                Hiroshi Yamashita
                Journal
                Journal ID (nlm-ta): iScience
                Journal ID (iso-abbrev): iScience
                Title: iScience
                Publisher: Elsevier
                ISSN (Electronic): 2589-0042
                Publication date PMC-release: 28 June 2023
                Publication date Collection: 21 July 2023
                Publication date (Electronic): 28 June 2023
                Volume: 26
                Issue: 7
                Electronic Location Identifier: 107250
                Affiliations
                [1 ]Faculty and Graduate School of Fisheries Sciences, Hokkaido University, 3-1-1 Minato-cho, Hakodate 041-8611, Japan
                [2 ]Department of Marine Science and Resources, College of Bioresource Sciences, Nihon University, 1866 Kameino, Fujisawa, Kanagawa 252-0880, Japan
                [3 ]Fisheries Technology Institute, Japan Fisheries Research and Education Agency, 148 Fukai-Ohta, Ishigaki, Okinawa 907-0451, Japan
                [4 ]School of Marine Biosciences, Kitasato University, 1-15-1, Kitazato, Minami, Sagamihara, Kanagawa 252-0374, Japan
                Author notes
                []Corresponding author ryu.sakai@ 123456fish.hokudai.ac.jp
                [∗∗ ]Corresponding author yamashita_hiroshi21@ 123456fra.go.jp
                [5]

                Lead contact

                Article
                Publisher Item ID: S2589-0042(23)01327-5 Publisher ID: 107250
                DOI: 10.1016/j.isci.2023.107250
                PMC ID: 10362313
                SO-VID: 616c0439-292f-4675-bb84-ce0bd0b95ddd
                Copyright © © 2023 The Authors
                License:

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                Date received : 5 February 2023
                Date revision received : 14 May 2023
                Date accepted : 26 June 2023
                Categories
                Subject: Article

                Keywords: marine organism,biological sciences,biochemistry
                Data availability:
                Keywords: marine organism, biological sciences, biochemistry

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