Chihiro Nogawa scite author profile

In molluscs, shell matrix proteins are associated with biomineralization, a biologically controlled process that involves nucleation and growth of calcium carbonate crystals. Identification and characterization of shell matrix proteins are important for better understanding of the adaptive radiation of a large variety of molluscs. We searched the draft genome sequence of the pearl oyster Pinctada fucata and annotated 30 different kinds of shell matrix proteins. Of these, we could identified Perlucin, ependymin-related protein and SPARC as common genes shared by bivalves and gastropods; however, most gastropod shell matrix proteins were not found in the P. fucata genome. Glycinerich proteins were conserved in the genus Pinctada. Another important finding with regard to these annotated genes was that numerous shell matrix proteins are encoded by more than one gene; e.g., three ACCBP-like proteins, three CaLPs, five chitin synthase-like proteins, two N16 proteins (pearlins), 10 N19 proteins, two nacreins, four Pifs, nine shematrins, two prismalin-14 proteins, and 21 tyrosinases. This diversity of shell matrix proteins may be implicated in the morphological diversity of mollusc shells. The annotated genes reported here can be searched in P. fucata gene models version 1.1 and genome assembly version 1.0 ( http://marinegenomics.oist.jp/pinctada_fucata ). These genes should provide a useful resource for studies of the genetic basis of biomineralization and evaluation of the role of shell matrix proteins as an evolutionary toolkit among the molluscs.

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Exciton Primer-mediated SNP detection in SmartAmp2 reactions

Lezhava¹,

Ishidao²,

Ishizu³

et al. 2010

Hum. Mutat.

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Most commonly used intercalating fluorescent dyes in DNA detection are lacking any sequence specificity, whereas so‐called Exciton Primers can overcome this limitation by functioning as “sequence‐specific dyes.” After hybridization to complementary sequences, the fluorescence of Exciton Primers provides sequence‐specific signals for real‐time monitoring of amplification reactions. Applied to the SmartAmp2 mutation detection process, Exciton Primers show high signal strength with low background leading to a superior specificity and sensitivity compared to SYBR Green I. Signal strength can be further enhanced using multiple dyes within one Exciton Primer or use of multiple Exciton Primers in the same amplification reaction. Here we demonstrate the use of Exciton Primers for genotyping a single nucleotide polymorphism (SNP) in the VKORC1 locus (−1639G>A) relevant for Warfarin dosing as an example for Exciton Primers mediated genotyping by SmartAmp2. The genotyping assay can use only one labeled Exciton Primer for endpoint detection, or simultaneously by real‐time monitoring detect wild‐type and mutant alleles in a one‐tube reaction using two Exciton Primers having different dyes. Working directly from blood samples, Exciton Primer mediated genotyping by SmartAmp2 offers superior solutions for rapid point‐of‐care testing. Hum Mutat 31:208–217, 2010. © 2010 Wiley‐Liss, Inc.

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Genetic structure and polymorphisms of the N16 gene in Pinctada fucata

Nogawa

Baba

Masaoka

et al. 2012

Gene

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A novel phosphorylated glycoprotein in the shell matrix of the oyster Crassostrea nippona

Samata¹,

Ikeda²,

Kajikawa³

et al. 2008

The FEBS Journal

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We found a novel 52 kDa matrix glycoprotein MPP1 in the shell of Crassostrea nippona that was unusually acidic and heavily phosphorylated. Deduced from the nucleotide sequence of 1.9 kb cDNA, which is likely to encode MPP1 with high probability, the primary structure of this protein shows a modular structure characterized by repeat sequences rich in Asp, Ser and Gly. The most remarkable of these is the DE‐rich sequence, in which continuous repeats of Asp are interrupted by a single Cys residue. Disulfide‐dependent MPP1 polymers occurring in the form of multimeric insoluble gels are estimated to contain repetitive locations of the anionic molecules of phosphates and acidic amino acids, particularly Asp. Thus, MPP1 and its polymers possess characteristic features of a charged molecule for oyster biomineralization, namely accumulation and trapping of Ca2+. In addition, MPP1 is the first organic matrix component considered to be expressed in both the foliated and prismatic layers of the molluscan shell microstructure. In vitro crystallization assays demonstrate the induction of tabular crystals with a completely different morphology from those formed spontaneously, indicating that MPP1 and its polymers are potentially the agent that controls crystal growth and shell microstructure.

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Shell matrix protein genes derived from donor expressed in pearl sac of Akoya pearl oysters (Pinctada fucata) under pearl culture

Masaoka¹,

Samata²,

Nogawa³

et al. 2013

Aquaculture

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Chihiro Nogawa

The Diversity of Shell Matrix Proteins: Genome-Wide Investigation of the Pearl Oyster, Pinctada fucata

Exciton Primer-mediated SNP detection in SmartAmp2 reactions

Genetic structure and polymorphisms of the N16 gene in Pinctada fucata

A novel phosphorylated glycoprotein in the shell matrix of the oyster Crassostrea nippona

Shell matrix protein genes derived from donor expressed in pearl sac of Akoya pearl oysters (Pinctada fucata) under pearl culture

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