Characterization of transcriptome and identification of biomineralization genes in winged pearl oyster (Pteria penguin) mantle tissue.

@article{Li2017CharacterizationOT,
  title={Characterization of transcriptome and identification of biomineralization genes in winged pearl oyster (Pteria penguin) mantle tissue.},
  author={Haimei Li and Bao-suo Liu and Gui-ju Huang and Sigang Fan and Bo Zhang and Jiaqi Su and Dahui Yu},
  journal={Comparative biochemistry and physiology. Part D, Genomics \& proteomics},
  year={2017},
  volume={21},
  pages={
          67-76
        }
}
  • Haimei Li, Bao-suo Liu, Dahui Yu
  • Published 1 March 2017
  • Biology
  • Comparative biochemistry and physiology. Part D, Genomics & proteomics

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TLDR
This study sequenced and characterized the P. martensii mantle transcriptome using 454 pyrosequencing, providing a resource for molecular biomarker, population genetics, and functional genomic studies and considerably enriching resources for the study of shell formation.
Identification of Genes Potentially Related to Biomineralization and Immunity by Transcriptome Analysis of Pearl Sac in Pearl Oyster Pinctada martensii
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In the present study, 39,400,004 reads were produced from the pearl sac using RNA-sequence technology and then assembled into 102,762 unigenes, which may be some genes specifically existed in P. martensii.
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Genomic resources presented here will be pivotal to future research investigating the biological mechanisms behind biomineralisation and will form a strong foundation for genetic selective breeding programs in the P. maxima pearling industry.
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Shematrin: a family of glycine-rich structural proteins in the shell of the pearl oyster Pinctada fucata.
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