Project description:we examined the transcriptome of E. suratensis and analysed the genes involved in growth, reproduction and immunity that are active in brain, pituitary, liver, kidney, spleen, muscles and gonads in both male and female through RNA Sequencing

Project description:transcriptome sequencing of yellowfin seabream gonads

Project description:Exopalaemon carinicauda gonads sample transcriptome sequencing

Project description:Golden mussel gonads transcriptome

Project description:Palaemon serratus gonads transcriptome

Project description:Limnoperna fortunei gonads Transcriptome

Project description:The goals of this study are to compare transcriptome profiling of L/H-Pgds-/- gonads to that of WT (RNA-seq) Methods: mRNA profiles of E13.5 wild-type (WT) and L- and H- prostaglandin D synthases (L/H-Pgds?/?) embryonic gonad were generated by deep sequencing, in triplicate, using Illumina HiSeq2000. qRT–PCR validation was performed using TaqMan and SYBR Green assays

Project description:To elucidate the function of NANOS2 to regulate the transcriptome in embryonic male germ cells, we performed expression microarray analysis of the embyornic gonads of the Nanos2+/-, Nanos2-/- male and wild type female from E12.5 to E15.5. The Nanos2+/- and Nanos2-/- female gonads at E15.5 were analyzed as a negative control.

Project description:We used deep sequencing to characterize 3 families of sRNAs (piRNAs, miRNAs, and tRFs) present in Sus scrofa gonads and focused on the sRNA fraction present in both male and female gonads. Of the sequences detected in the testes, 2.6% of piRNAs, 9% of miRNAs, and 10% of tRFs were also present in the ovaries. Notably, the majority of the shared piRNAs mapped to the introns of ribosomal RNAs and were derived from clustered loci. In addition, the most abundant miRNAs present in the ovaries and testes are conserved and are involved in many biological processes such as the regulation of homeobox genes, the control of cell proliferation, and carcinogenesis. Unexpectedly, we detected a novel sRNA type, the tRFs, which are 30–36-nt RNA fragments derived from tRNA molecules, in gonads

Project description:Sexual reproduction is a complex process involving multiple pathways. In this study, we aimed at investigating gene expression profiles underlying gender specificity in the zebrafish. To do so, we analyzed the transcriptome of the gonads of breeding fish and queried the gene expression profiles for significant differences between the genders and also between stages of gonad development. Major differences in gene expression profiles between genders were encountered at the level of the gonads. In addition, we identified biological processes associated with stage of sexual development in female gonads. Keywords: gender and stage related gene expression