Project description:Rabbit, intestine, bacterium Targeted Locus (Loci)

Project description:Rabbit small intestine 16S RNAc Genome sequencing

Project description:Rabbit small intestine 16S RNA sequencing data

Project description:Rabbit small intestine 16S RNAc Genome sequencing

Project description:To understand how Pou4f1 functions in RGC lineage specification and subtype formation, we performed “Cleavage Under Targets & Tagmentation” (CUT&Tag) analysis using a rabbit anti-Pou4f1 antibody and embryonic 16.5 (E16.5) retinal cells to generate barcoded PCR libraries that are enriched for Pou4f1-mediated binding. In parallel, rabbit IgG was used as a negative control for peak calling analysis, and rabbit anti-H3K9ac antibody was used to mark active enhancers and promoters.

Project description:rabbit

Project description:In our rabbit model of pulmonary tuberculosis, infection with Mtb HN878, a hyper-virulent W-Beijing strain, results in progressive cavitary disease. However, infection of rabbit lungs with Mtb CDC1551, a hyper-immunogenic strain is effectively controlled overtime, establishing latent Mtb infection. Using these two Mtb strains, we tested the hypothesis that the initial host response in the lungs within hours of infection determines later outcome. The microarray experiments was performed to identify gene expression changes in the Mtb-HN878 or CDC1551- infected rabbit lungs at 3 hours post infection, compared to uninfected naïve rabbit lungs.

Project description:The virulence of Mycobacterium tuberculosis (Mtb), either as mostly aggregates or single cells (Mtb-SC), was compared using a rabbit model of pulmonary infection. Our hypothesis is that aggregation contributes to enhanced virulence of Mtb. Rabbit lung transcriptome was analyzed by RNAseq to identify differentially regulated gene networks and pathways between Mtb-AG and Mtb-SC infection of rabbit lungs soon after seeding of the bacteria (24 hours post-inoculation).

Project description:Despite the growing interest in the rabbit model for developmental and stem cell biology, the characterization of embryos at the molecular level is still poorly documented. We conducted a transcriptome analysis of rabbit pre-implantation embryos from E2.7 (morula stage) to E6.6 (early primitive streak stage) using SmartSeq2 bulk RNA-sequencing, single-cell 10X Genomics RNA-seq and single-cell Biomark qPCR. In parallel, we studied oxidative phosphorylation and glycolysis and analyzed active and repressive epigenetic modifications during blastocyst formation and expansion. We generated a transcriptomic, epigenetic, and metabolic map of the pluripotency continuum in rabbit preimplantation embryos and identified novel markers of naïve pluripotency that might be instrumental for deriving naïve pluripotent stem cell lines. Although the rabbit is evolutionarily closer to mice than to primates, we found that the transcriptome of rabbit epiblast cells shares common features with that of humans and non-human primates.

Project description:Evaluation of the transcriptomic profile of the rabbit embryo along the preimplantation period during in vivo development. Three embryonic stages were used: four cell embryos (H32 post-coïtum); morula (H58 pc) and blastocyst (H90 pc). Keywords: time course rabbit embryo