Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole.
Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole.
Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole.
Project description:This SuperSeries is composed of the following subset Series: GSE21634: Transcriptional profiling of flatfish (Solea senegalensis) spermatogenesis_1 GSE21635: Transcriptional profiling of flatfish (Solea senegalensis) spermatogenesis_2 GSE21637: Transcriptional profiling of flatfish (Solea senegalensis) spermatogenesis_3 Refer to individual Series
Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole. This study represents spermatogenesis in Solea senegalensis: mid versus late spermatogenesis. Total RNA from testes at different stages in spermatogenesis (early, mid, late and functional maturation) from F0 wild Senegalese sole (3-4 animals at each stage) was extracted using the RNeasy extraction kit (Qiagen) and treated with DNAse following the manufacturer’s instructions. Quantitative and qualitative analysis of total RNA was performed using the Agilent 2100 bioanalyzer. RNA samples from each stage were pooled and amplified, labelled and hybridized to a custom-made oligonucleotide microarray containing 5,087 Senegalese sole Unigene sequences. In brief, pooled testicular RNAs from each stage were amplified and the resulting cRNAs labelled with Cy3 and Cy5, respectively, mixed in equal amounts and hybridized to the microarray for 17 h at 60 ºC.
Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole. This study represents spermatogenesis in Solea senegalensis: functional mature versus late spermatogenesis. Total RNA from testes at different stages in spermatogenesis (early, mid, late and functional maturation) from F0 wild Senegalese sole (3-4 animals at each stage) was extracted using the RNeasy extraction kit (Qiagen) and treated with DNAse following the manufacturer’s instructions. Quantitative and qualitative analysis of total RNA was performed using the Agilent 2100 bioanalyzer. RNA samples from each stage were pooled and amplified, labelled and hybridized to a custom-made oligonucleotide microarray containing 5,087 Senegalese sole Unigene sequences. In brief, pooled testicular RNAs from each stage were amplified and the resulting cRNAs labelled with Cy3 and Cy5, respectively, mixed in equal amounts and hybridized to the microarray for 17 h at 60 ºC.
Project description:The Senegalese sole (Solea senegalensis) is a marine flatfish of high economic value and a target species for aquaculture. Here, we used a transcriptomic approach to investigate changes in genes expressed in the Senegalese sole testis throughout spermatogenesis in wild-caught fish adapted to captivity. We identified approximately 400 genes that are differentially expressed during the progression of spermatogenesis and that participate in processes such as activation of the ubiquitin-proteasome system, sperm maturation and motility, cell adhesion or cytoskeletal remodeling. The results from this study contribute to our understanding of the molecular changes ocurring during spermatogenesis in the Senegalese sole. This study represents spermatogenesis in Solea senegalensis: early versus late spermatogenesis. Total RNA from testes at different stages in spermatogenesis (early, mid, late and functional maturation) from F0 wild Senegalese sole (3-4 animals at each stage) was extracted using the RNeasy extraction kit (Qiagen) and treated with DNAse following the manufacturer’s instructions. Quantitative and qualitative analysis of total RNA was performed using the Agilent 2100 bioanalyzer. RNA samples from each stage were pooled and amplified, labelled and hybridized to a custom-made oligonucleotide microarray containing 5,087 Senegalese sole Unigene sequences. In brief, pooled testicular RNAs from each stage were amplified and the resulting cRNAs labelled with Cy3 and Cy5, respectively, mixed in equal amounts and hybridized to the microarray for 17 h at 60 ºC. Each hybridization was performed at least in duplicate.
Project description:In male teleosts, testicular steroids are essential hormones for the regulation of spermatogenesis and their production is regulated by pituitary gonadotropins. In the Senegalese sole (Solea senegalensis), an economically important flatfish with semi-cystic and asynchronous spermatogenesis, the endocrine mechanisms involved in the regulation of spermatogenesis, particularly regarding the production and regulation of testicular steroids, are not well understood.This study aimed at describing the transcriptomic changes taking place in the Senegalese sole testis in response to hCG stimulation in vivo. Gene expression analysis by microarray identified 90 differentially expressed genes in the testis in response to hCG administration, including genes potentially involved in steroidogenesis, progression of spermatogenesis and germ cell maturation and cytoskeletal organization. Our results provide evidence for the first time that key genes involved in the regulation of steroid production and spermatogenesis in the Senegalese sole testis are under gonadotropic control.