The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.

The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.

The scleractinian coral Acropora millepora is one of the most studied species from the Great Barrier Reef. This species has been used to understand evolutionary, immune and developmental processes in cnidarians. It has also been subject of several ecological studies in order to elucidate reef respon...

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Main Authors: Paula Ramos-Silva, Jaap Kaandorp, Frédéric Herbst, Laurent Plasseraud, Gérard Alcaraz, Christine Stern, Marion Corneillat, Nathalie Guichard, Christophe Durlet, Gilles Luquet, Frédéric Marin
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4043741?pdf=render
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spelling doaj-72deb989ca4542bfb919b2f76419e7012020-11-25T01:25:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0196e9745410.1371/journal.pone.0097454The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.Paula Ramos-SilvaJaap KaandorpFrédéric HerbstLaurent PlasseraudGérard AlcarazChristine SternMarion CorneillatNathalie GuichardChristophe DurletGilles LuquetFrédéric MarinThe scleractinian coral Acropora millepora is one of the most studied species from the Great Barrier Reef. This species has been used to understand evolutionary, immune and developmental processes in cnidarians. It has also been subject of several ecological studies in order to elucidate reef responses to environmental changes such as temperature rise and ocean acidification (OA). In these contexts, several nucleic acid resources were made available. When combined to a recent proteomic analysis of the coral skeletal organic matrix (SOM), they enabled the identification of several skeletal matrix proteins, making A. millepora into an emerging model for biomineralization studies. Here we describe the skeletal microstructure of A. millepora skeleton, together with a functional and biochemical characterization of its occluded SOM that focuses on the protein and saccharidic moieties. The skeletal matrix proteins show a large range of isoelectric points, compositional patterns and signatures. Besides secreted proteins, there are a significant number of proteins with membrane attachment sites such as transmembrane domains and GPI anchors as well as proteins with integrin binding sites. These features show that the skeletal proteins must have strong adhesion properties in order to function in the calcifying space. Moreover this data suggest a molecular connection between the calcifying epithelium and the skeletal tissue during biocalcification. In terms of sugar moieties, the enrichment of the SOM in arabinose is striking, and the monosaccharide composition exhibits the same signature as that of mucus of acroporid corals. Finally, we observe that the interaction of the acetic acid soluble SOM on the morphology of in vitro grown CaCO3 crystals is very pronounced when compared with the calcifying matrices of some mollusks. In light of these results, we wish to commend Acropora millepora as a model for biocalcification studies in scleractinians, from molecular and structural viewpoints.http://europepmc.org/articles/PMC4043741?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Paula Ramos-Silva
Jaap Kaandorp
Frédéric Herbst
Laurent Plasseraud
Gérard Alcaraz
Christine Stern
Marion Corneillat
Nathalie Guichard
Christophe Durlet
Gilles Luquet
Frédéric Marin
spellingShingle Paula Ramos-Silva
Jaap Kaandorp
Frédéric Herbst
Laurent Plasseraud
Gérard Alcaraz
Christine Stern
Marion Corneillat
Nathalie Guichard
Christophe Durlet
Gilles Luquet
Frédéric Marin
The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
PLoS ONE
author_facet Paula Ramos-Silva
Jaap Kaandorp
Frédéric Herbst
Laurent Plasseraud
Gérard Alcaraz
Christine Stern
Marion Corneillat
Nathalie Guichard
Christophe Durlet
Gilles Luquet
Frédéric Marin
author_sort Paula Ramos-Silva
title The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
title_short The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
title_full The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
title_fullStr The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
title_full_unstemmed The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.
title_sort skeleton of the staghorn coral acropora millepora: molecular and structural characterization.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description The scleractinian coral Acropora millepora is one of the most studied species from the Great Barrier Reef. This species has been used to understand evolutionary, immune and developmental processes in cnidarians. It has also been subject of several ecological studies in order to elucidate reef responses to environmental changes such as temperature rise and ocean acidification (OA). In these contexts, several nucleic acid resources were made available. When combined to a recent proteomic analysis of the coral skeletal organic matrix (SOM), they enabled the identification of several skeletal matrix proteins, making A. millepora into an emerging model for biomineralization studies. Here we describe the skeletal microstructure of A. millepora skeleton, together with a functional and biochemical characterization of its occluded SOM that focuses on the protein and saccharidic moieties. The skeletal matrix proteins show a large range of isoelectric points, compositional patterns and signatures. Besides secreted proteins, there are a significant number of proteins with membrane attachment sites such as transmembrane domains and GPI anchors as well as proteins with integrin binding sites. These features show that the skeletal proteins must have strong adhesion properties in order to function in the calcifying space. Moreover this data suggest a molecular connection between the calcifying epithelium and the skeletal tissue during biocalcification. In terms of sugar moieties, the enrichment of the SOM in arabinose is striking, and the monosaccharide composition exhibits the same signature as that of mucus of acroporid corals. Finally, we observe that the interaction of the acetic acid soluble SOM on the morphology of in vitro grown CaCO3 crystals is very pronounced when compared with the calcifying matrices of some mollusks. In light of these results, we wish to commend Acropora millepora as a model for biocalcification studies in scleractinians, from molecular and structural viewpoints.
url http://europepmc.org/articles/PMC4043741?pdf=render
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