Comparative analysis of a teleost skeleton transcriptome provides insight into its regulation. | - CCMAR -

Journal Article

TitleComparative analysis of a teleost skeleton transcriptome provides insight into its regulation.
Publication TypeJournal Article
AuthorsVieira, FA, Thorne, MAS, Stueber, K, Darias, M, Reinhardt, R, Clark, MS, Gisbert, E, Power, DM
Year of Publication2013
JournalGen Comp Endocrinol
Date Published2013 Sep 15
KeywordsAnimals, DNA, Complementary, Fish Proteins, Gene Expression Regulation, Sea Bream, Transcriptome

An articulated endoskeleton that is calcified is a unifying innovation of the vertebrates, however the molecular basis of the structural divergence between terrestrial and aquatic vertebrates, such as teleost fish, has not been determined. In the present study long-read next generation sequencing (NGS, Roche 454 platform) was used to characterize acellular perichondral bone (vertebrae) and chondroid bone (gill arch) in the gilthead sea bream (Sparus auratus). A total of 15.97 and 14.53Mb were produced, respectively from vertebrae and gill arch cDNA libraries and yielded 32,374 and 28,371 contigs (consensus sequences) respectively. 10,455 contigs from vertebrae and 10,625 contigs from gill arches were annotated with gene ontology terms. Comparative analysis of the global transcriptome revealed 4249 unique transcripts in vertebrae, 4201 unique transcripts in the gill arches and 3700 common transcripts. Several core gene networks were conserved between the gilthead sea bream and mammalian skeleton. Transcripts for putative endocrine factors were identified in acellular gilthead sea bream bone suggesting that in common with mammalian bone it can act as an endocrine tissue. The acellular bone of the vertebra, in contrast to current opinion based on histological analysis, was responsive to a short fast and significant (p<0.05) down-regulation of several transcripts identified by NGS, osteonectin, osteocalcin, cathepsin K and IGFI occurred. In gill arches fasting caused a significant (p<0.05) down-regulation of osteocalcin and up-regulation of MMP9.


Alternate JournalGen. Comp. Endocrinol.
PubMed ID23770218
CCMAR Authors