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A rapidly evolving secretome builds and patterns a sea shell

BACKGROUND: Instructions to fabricate mineralized structures with distinct nanoscale architectures, such as seashells and coral and vertebrate skeletons, are encoded in the genomes of a wide variety of animals. In mollusks, the mantle is responsible for the extracellular production of the shell, dir...

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Autores principales: Jackson, Daniel J, McDougall, Carmel, Green, Kathryn, Simpson, Fiona, Wörheide, Gert, Degnan, Bernard M
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2006
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1676022/
https://www.ncbi.nlm.nih.gov/pubmed/17121673
http://dx.doi.org/10.1186/1741-7007-4-40
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author Jackson, Daniel J
McDougall, Carmel
Green, Kathryn
Simpson, Fiona
Wörheide, Gert
Degnan, Bernard M
author_facet Jackson, Daniel J
McDougall, Carmel
Green, Kathryn
Simpson, Fiona
Wörheide, Gert
Degnan, Bernard M
author_sort Jackson, Daniel J
collection PubMed
description BACKGROUND: Instructions to fabricate mineralized structures with distinct nanoscale architectures, such as seashells and coral and vertebrate skeletons, are encoded in the genomes of a wide variety of animals. In mollusks, the mantle is responsible for the extracellular production of the shell, directing the ordered biomineralization of CaCO(3 )and the deposition of architectural and color patterns. The evolutionary origins of the ability to synthesize calcified structures across various metazoan taxa remain obscure, with only a small number of protein families identified from molluskan shells. The recent sequencing of a wide range of metazoan genomes coupled with the analysis of gene expression in non-model animals has allowed us to investigate the evolution and process of biomineralization in gastropod mollusks. RESULTS: Here we show that over 25% of the genes expressed in the mantle of the vetigastropod Haliotis asinina encode secreted proteins, indicating that hundreds of proteins are likely to be contributing to shell fabrication and patterning. Almost 85% of the secretome encodes novel proteins; remarkably, only 19% of these have identifiable homologues in the full genome of the patellogastropod Lottia scutum. The spatial expression profiles of mantle genes that belong to the secretome is restricted to discrete mantle zones, with each zone responsible for the fabrication of one of the structural layers of the shell. Patterned expression of a subset of genes along the length of the mantle is indicative of roles in shell ornamentation. For example, Has-sometsuke maps precisely to pigmentation patterns in the shell, providing the first case of a gene product to be involved in molluskan shell pigmentation. We also describe the expression of two novel genes involved in nacre (mother of pearl) deposition. CONCLUSION: The unexpected complexity and evolvability of this secretome and the modular design of the molluskan mantle enables diversification of shell strength and design, and as such must contribute to the variety of adaptive architectures and colors found in mollusk shells. The composition of this novel mantle-specific secretome suggests that there are significant molecular differences in the ways in which gastropods synthesize their shells.
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spelling pubmed-16760222006-12-01 A rapidly evolving secretome builds and patterns a sea shell Jackson, Daniel J McDougall, Carmel Green, Kathryn Simpson, Fiona Wörheide, Gert Degnan, Bernard M BMC Biol Research Article BACKGROUND: Instructions to fabricate mineralized structures with distinct nanoscale architectures, such as seashells and coral and vertebrate skeletons, are encoded in the genomes of a wide variety of animals. In mollusks, the mantle is responsible for the extracellular production of the shell, directing the ordered biomineralization of CaCO(3 )and the deposition of architectural and color patterns. The evolutionary origins of the ability to synthesize calcified structures across various metazoan taxa remain obscure, with only a small number of protein families identified from molluskan shells. The recent sequencing of a wide range of metazoan genomes coupled with the analysis of gene expression in non-model animals has allowed us to investigate the evolution and process of biomineralization in gastropod mollusks. RESULTS: Here we show that over 25% of the genes expressed in the mantle of the vetigastropod Haliotis asinina encode secreted proteins, indicating that hundreds of proteins are likely to be contributing to shell fabrication and patterning. Almost 85% of the secretome encodes novel proteins; remarkably, only 19% of these have identifiable homologues in the full genome of the patellogastropod Lottia scutum. The spatial expression profiles of mantle genes that belong to the secretome is restricted to discrete mantle zones, with each zone responsible for the fabrication of one of the structural layers of the shell. Patterned expression of a subset of genes along the length of the mantle is indicative of roles in shell ornamentation. For example, Has-sometsuke maps precisely to pigmentation patterns in the shell, providing the first case of a gene product to be involved in molluskan shell pigmentation. We also describe the expression of two novel genes involved in nacre (mother of pearl) deposition. CONCLUSION: The unexpected complexity and evolvability of this secretome and the modular design of the molluskan mantle enables diversification of shell strength and design, and as such must contribute to the variety of adaptive architectures and colors found in mollusk shells. The composition of this novel mantle-specific secretome suggests that there are significant molecular differences in the ways in which gastropods synthesize their shells. BioMed Central 2006-11-22 /pmc/articles/PMC1676022/ /pubmed/17121673 http://dx.doi.org/10.1186/1741-7007-4-40 Text en Copyright © 2006 Jackson et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Jackson, Daniel J
McDougall, Carmel
Green, Kathryn
Simpson, Fiona
Wörheide, Gert
Degnan, Bernard M
A rapidly evolving secretome builds and patterns a sea shell
title A rapidly evolving secretome builds and patterns a sea shell
title_full A rapidly evolving secretome builds and patterns a sea shell
title_fullStr A rapidly evolving secretome builds and patterns a sea shell
title_full_unstemmed A rapidly evolving secretome builds and patterns a sea shell
title_short A rapidly evolving secretome builds and patterns a sea shell
title_sort rapidly evolving secretome builds and patterns a sea shell
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1676022/
https://www.ncbi.nlm.nih.gov/pubmed/17121673
http://dx.doi.org/10.1186/1741-7007-4-40
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