Hydrophilic Shell Matrix Proteins of Nautilus pompilius and the Identification of a Core Set of Conchiferan Domains

Despite being a member of the shelled mollusks (Conchiferans), most members of extant cephalopods have lost their external biomineralized shells, except for the basally diverging Nautilids. Here, we report the result of our study to identify major Shell Matrix Proteins and their domains in the Nauti...

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Bibliographic Details
Published in:Genes 2021-11, Vol.12 (12), p.1925
Main Authors: Setiamarga, Davin H E, Hirota, Kazuki, Yoshida, Masa-Aki, Takeda, Yusuke, Kito, Keiji, Ishikawa, Makiko, Shimizu, Keisuke, Isowa, Yukinobu, Ikeo, Kazuho, Sasaki, Takenori, Endo, Kazuyoshi
Format: Article
Language:English
Subjects:
Animal Shells - chemistry
Animals
Calcification
Comparative analysis
Conserved Sequence
Evolution
Evolution, Molecular
Gene Expression Profiling
Genomes
Mantle
Mass spectrometry
Matrix protein
Nautilus - chemistry
Nautilus - genetics
Nautilus pompilius
Phylogeny
Polypeptides
Protein Domains
Proteins
Proteins - analysis
Proteins - genetics
Proteomics
Scientific imaging
Shells
Transcriptomics
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Summary:Despite being a member of the shelled mollusks (Conchiferans), most members of extant cephalopods have lost their external biomineralized shells, except for the basally diverging Nautilids. Here, we report the result of our study to identify major Shell Matrix Proteins and their domains in the Nautilid in order to gain a general insight into the evolution of Conchiferan Shell Matrix Proteins. In order to do so, we performed a multiomics study on the shell of , by conducting transcriptomics of its mantle tissue and proteomics of its shell matrix. Analyses of obtained data identified 61 distinct shell-specific sequences. Of the successfully annotated 27 sequences, protein domains were predicted in 19. Comparative analysis of sequences with four Conchiferans for which Shell Matrix Protein data were available (the pacific oyster, the pearl oyster, the limpet and the snail) revealed that three proteins and six protein domains were conserved in all Conchiferans. Interestingly, when the terrestrial snail was excluded, another five proteins and six protein domains were found to be shared among the four marine Conchiferans. Phylogenetic analyses indicated that most of these proteins and domains were probably present in the ancestral Conchiferan, but employed in shell formation later and independently in most clades. Even though further studies utilizing deeper sequencing techniques to obtain genome and full-length sequences, and functional analyses, must be carried out in the future, our results here provide important pieces of information for the elucidation of the evolution of Conchiferan shells at the molecular level.
ISSN:2073-4425
2073-4425
DOI:10.3390/genes12121925