Project description:Comparative Placental Efficiency in Swine Examined Using Expression Profiling

Project description:Animal cloning can be achieved through somatic cell nuclear transfer (SCNT), yet the success rate is very low. Recent studies have revealed H3K9me3 in donor cells and abnormal Xist activation as epigenetic barriers that impede SCNT reprogramming. Here we overcome both barriers by using Xist knockout donor cells combined with overexpressing Kdm4d and achieved the highest cloning efficiency in mice. However, post-implantation developmental defects and abnormal placenta were still observed, indicating presence of additional epigenetic barriers impedes SCNT cloning. Comparative DNA methylome analysis of IVF and SCNT blastocysts identified many abnormally methylated regions in SCNT embryos, despite successful global methylome reprogramming. Strikingly, allelic transcriptome and ChIP-seq analyses of preimplantation SCNT embryos revealed a complete loss of H3K27me3 imprinting, which likely accounts for postimplantation developmental defects of SCNT embryos. This study not only provides an efficient method for mouse cloning, but also paves the way for further improving SCNT cloning efficiency.

Project description:Transcriptome analysis of swine testis cells following swine transmissible gastroenteritis coronavirus infection

Project description:We report the distribution of histone acetylation at global genomic level in donor cells with different cloning efficiency. By obtaining over 40 million clean reads from immunoprecipitated DNA, we generated genome-wide chromatin-state maps of two buffalo fibroblast cell lines. We find that high cloning efficiency BFFs also had more regions enriched with H3K9ac sites near to the upstream of genes related to glycolysis. This study provides a framework for the application of comprehensive chromatin profiling towards donor cells with different cloning efficiency. We report the landscape of chromatin accessibility in donor cells with different cloning efficiency by transposase-accessible chromatin sequencing (ATAC-seq). We found that the landscape of chromatin accessibility was similar in both BFF1 and BFF2. Most loci defined by ATAC-seq was abundant just on the upstream of transcription start sites (TSS), but the signals in BFF2 were stronger than BFF1. GO analysis showed that most differential loci annotated genes were involved in developmental process, cellular process and metabolic process. This study provides a framework for the application of landscape of chromatin accessibility towards donor cells with different cloning efficiency.

Project description:transcriptome analysis of swine (PRJCA022092)

Project description:Response of swine lung to H1N1 swine influenza virus infection revealed by transcription analysis

Project description:Pluripotent cells can be derived from somatic cells by either overexpression of defined transcription factors (resulting in induced pluripotent stem cells (iPSCs)) or by nuclear transfer or cloning (resulting in NT-ESCs). To determine whether cloning further reprograms iPSCs, we used iPSCs as donor cells in nuclear transfer experiments.

Project description:Animal cloning can be achieved through somatic cell nuclear transfer (SCNT), yet the success rate remains very low. Recent studies have revealed two epigenetic barriers, H3K9me3 in donor cells and abnormal Xist activation, that impede SCNT reprogramming. Here we overcome both barriers by combining the use of Xist knockout donor cells and overexpressing Kdm4d, which allowed us to achieve the highest mouse cloning efficiency. However, SCNT-associated developmental defects and abnormal placenta were still observed, suggesting the existence of additional epigenetic defects in these SCNT embryos. Comparative DNA methylome analysis of IVF and SCNT blastocysts identified many abnormally methylated regions in SCNT embryos, despite successful global methylome reprogramming. Strikingly, allelic transcriptome analyses of SCNT blastocysts revealed a complete loss-of-imprinting at the H3K27me3-dependent imprinted genes, which may account for postimplantation developmental defects of SCNT embryos. This study thus not only provides the most efficient method for mouse cloning but also points the way for further improve SCNT cloning.

Project description:Animal cloning can be achieved through somatic cell nuclear transfer (SCNT), yet the success rate remains very low. Recent studies have revealed two epigenetic barriers, H3K9me3 in donor cells and abnormal Xist activation, that impede SCNT reprogramming. Here we overcome both barriers by combining the use of Xist knockout donor cells and overexpressing Kdm4d, which allowed us to achieve the highest mouse cloning efficiency. However, SCNT-associated developmental defects and abnormal placenta were still observed, suggesting the existence of additional epigenetic defects in these SCNT embryos. Comparative DNA methylome analysis of IVF and SCNT blastocysts identified many abnormally methylated regions in SCNT embryos, despite successful global methylome reprogramming. Strikingly, allelic transcriptome analyses of SCNT blastocysts revealed a complete loss-of-imprinting at the H3K27me3-dependent imprinted genes, which may account for postimplantation developmental defects of SCNT embryos. This study thus not only provides the most efficient method for mouse cloning but also points the way for further improve SCNT cloning.

Project description:Large White and Meishan pigs were either non-treated or injected with mammalian 1-24 ACTH (Immediate Synachten, Novartis France) at the dose of 250 µg per animal. Pigs were sacrificed either immediately after capture from their home cage (non-treated animals) or 1 hour following ACTH injection. Adrenal glands were immediately collected from pigs and frozen on dry ice and then stored at -80°C until RNA isolation. Keywords: stress response, adrenal, gene expression, pig