Bioproject ID: PRJNA285201


bioproject id PRJNA285201      to NCBI
key word baseline;Gene duplication;Teleosts;Holostean;Gene expression;Gar;Salmonids;Assembly;Stra8;Mcam;SPOTTED GAR;DIVERSIFICATION;RESOLUTION;PHYLOGENY;STRA8;CD146;TIME
experiment type baseline
publication Pasquier, J. , et al. "Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database. " Bmc Genomics 17.1(2016):368.
description Transcriptome analysis of 11 tissues in Mexican tetra Pachon cave fish
abstract With more than 30,000 species, ray-finned fish represent approximately half of vertebrates. The evolution of ray-finned fish was impacted by several whole genome duplication (WGD) events including a teleost-specific WGD event (TGD) that occurred at the root of the teleost lineage about 350 million years ago (Mya) and more recent WGD events in salmonids, carps, suckers and others. In plants and animals, WGD events are associated with adaptive radiations and evolutionary innovations. WGD-spurred innovation may be especially relevant in the case of teleost fish, which colonized a wide diversity of habitats on earth, including many extreme environments. Fish biodiversity, the use of fish models for human medicine and ecological studies, and theimportance of fish in human nutrition, fuel an important need for the characterization of gene expression repertoires and corresponding evolutionary histories of ray-finned fish genes. To this aim, we performed transcriptome analyses and developed the PhyloFish database to provide (i) de novo assembled gene repertoires in 23 different ray-finned fish species including two holosteans (i.e. a group that diverged from teleosts before TGD) and 21 teleosts (including six salmonids), and (ii) gene expression levels in ten different tissues and organs (and embryos for many) in the same species. This resource was generated using a common deep RNA sequencing protocol to obtain the most exhaustive gene repertoire possible in each species that allows between-species comparisons to study the evolution of gene expression in different lineages. The PhyloFish database described here can be accessed and searched using RNAbrowse, a simple and efficient solution to give access to RNA-seq de novo assembled transcripts.


Sample Information


sample id sample name tissue strain treatment description
1. SRR2045404 T_Am_12 ovary Pachon cave untreatment Mexican tetra ovary: Sample T_Am_12
2. SRR2045405 T_Am_2 brain Pachon cave untreatment Mexican tetra brain: Sample T_Am_2
3. SRR2045406 T_Am_3 gills Pachon cave untreatment Mexican tetra gills: Sample T_Am_3
4. SRR2045407 T_Am_4 heart Pachon cave untreatment Mexican tetra heart: Sample T_Am_4
5. SRR2045408 T_Am_5 muscle Pachon cave untreatment Mexican tetra muscle: Sample T_Am_5
6. SRR2045409 T_Am_6 testis Pachon cave untreatment Mexican tetra testis: Sample T_Am_6
7. SRR2045410 T_Am_7 head kidney Pachon cave untreatment Mexican tetra kidney: Sample T_Am_7
8. SRR2045411 T_Am_8 bones Pachon cave untreatment Mexican tetra bones: Sample T_Am_8
9. SRR2045412 T_Am_9 intestine Pachon cave untreatment Mexican tetra intestine: Sample T_Am_9
10. SRR2045413 T_Am_13 testis Pachon cave untreatment Mexican tetra testis: Sample T_Am_13
11. SRR2045414 T_Am_11 embryos Pachon cave untreatment Mexican tetra embryo: Sample T_Am_11