Project description:We used microarrays to identify Pax3 targets during myogenesis in the mouse embryo Mouse embryos were genotyped Pax3GFP/+ or Pax3PAX3-FKHR/GFP and dissected at E10.5 under a fluorescent binocular. The forelimb buds were dissected and dissociated and GFP positive cells were then sorted by flow cytometry before RNA extraction and hybridization on Affymetrix microarrays. We also sorted GFP negative cells.

Project description:We used microarrays to identify Pax3 targets during myogenesis in the mouse embryo Mouse embryos were genotyped Pax3GFP/+ or Pax3PAX3-FKHR/GFP and dissected at E9.5 under a fluorescent binocular. Somites were dissected from the interlimb region and the more hypaxial domain separated from the neural tube and the epaxial extremity of the somites. GFP positive cells were then sorted by flow cytometry before RNA extraction and hybridization on Affymetrix microarrays. We also sorted GFP negative cells.

Project description:We used wheat as rotational crop to assess the influence of continuous cropping on microbiome in Pinellia ternata rhizosphere and the remediation of rotational cropping to the impacted microbiota. Illumina high-throughput sequencing technology was utilized for this method to explore the rhizosphere microbial structure and diversity based on continuous and rotational cropping.

Project description:Single-cell transcriptome of commissural and non-commissural dentate gyrus granule cells

Project description:Array experiment: Animals were divided into a control group (naive), which did not undergo any experimental manipulation (n=20) and two experimental groups, one receiving an intra-orbital nerve transection (IONT, n=60) and the other an intra-orbital nerve crush (IONC, n=60) Sterile precautions were maintained for all surgical procedures. The left ON was intraorbitally axotomized according to procedures that are standard in our laboratory. (REF) Briefly, an incision was made in the superior orbital rim, the superoexternal orbital contents were dissected, and the superior and external rectus muscles were removed. When performing IONT, the dura mater was opened longitudinally to spare the blood supply, and the optic nerve was transected 0.5 mm from the optic disc. To perform IONC the optic nerve was crushed 3 mm from the optic disc during 10 seconds using a pair of watchmakers forceps (Vidal-Sanz et al., 1988, 1991; Villegas-Perez et al., 1993). Before and after the procedure, the eye fundus was observed through the operating microscope to assess the integrity of the retinal blood flow. Tissue processing and RNA extraction: Animals were kept the appropriate time post injury (12h, 24h, 48h, 3d 7d and 15d, n=8-12 per time point) and then sacrificed by an intraperitoneal overdose of sodium pentobarbital. Left retinas were fresh dissected and immediately frozen in liquid nitrogen. Four retinas from each time point, animal group and biological replica were pooled and RNA was extracted using Trizol (Invitrogen). RNA was further cleaned through RNAeasy mini kit columns (Quiagen). The RNA integrity was checked using a Bioanalyzer (Agilent Technologies, USA) and concentrations were determined using a NanoDrop (NanoDrop Technologies, Wilmington, DE, USA).

Project description:How the brain combines information received independently by the two hemispheres is not fully understood. Here we describe a non-reciprocal circuit for interhemispheric communication in mouse binocular visual cortex via anatomically segregated neuronal populations. Callosal projecting neurons (CPNs) received only weak or no callosal input, whereas callosal receiving neurons (CRNs) made only weak or no callosal projections. Both populations received direct input from the thalamus. At the cellular level, CRNs had reduced excitability compared to non-CRNs (putative CPNs) due to elevated Kv1 potassium channel expression (encoded by the KCNA2 gene), with excitability of CRNs correlated with the magnitude of callosal input. Functionally, CRNs were predominately binocular, with binocularity correlated with callosal input, whereas non-CRNs (putative CPNs) were predominately monocular. In summary, we find that non-reciprocal callosal projections between CPNs and CRNs together with differences in excitability shaped by callosal input underlie interhemispheric communication in binocular visual cortex.

Project description:Calcium is involved in vision processes in retina and is implicated in various pathologies including glaucoma. Rods are protected against prolonged lowering of intracellular calcium ion concentrations by Store Operated Calcium Entry (SOCE). We showed zebrafish lacking SOCE calcium sensor Stim2 had problem with vision as indicated by behavior tests, staining of retina and downregulation of genes related to light perception. In this work we aimed to understand the mechanism responsible for the vision problems in stim2 zebrafish knockout. scRNA-sequencing of neuronal origin cells from brains of 5 dpf larvae identified 27 clusters. Differently expressed genes were detected in ten clusters including amacrine and GABAergic retinal interneurons and GABAergic optic tectum cells. In five clusters the proportion of cells in stim2 KO fish versus control was significantly decreased including GABAergic diencephalon and optic tectum, and was increased in amacrine and GABAergic retinal interneurons. Transmission Electron Microscopy in stim2 KO fish revealed decrease in width of inner plexiform layer (IPL), ganglion cells and their dendrites numbers what is characteristic for glaucoma. Analysis of cell density in the inner nucleus layer, which includes amacrine cells among others, showed a significant decrease in the number of GABAergic neurons.The area of cristae in photoreceptor mitochondria was statistically lower in stim2 KO than in control retinas.

Project description:Calcium is involved in vision processes in retina and is implicated in various pathologies including glaucoma. Rods are protected against prolonged lowering of intracellular calcium ion concentrations by Store Operated Calcium Entry (SOCE). We showed zebrafish lacking SOCE calcium sensor Stim2 had problem with vision as indicated by behavior tests, staining of retina and downregulation of genes related to light perception. In this work we aimed to understand the mechanism responsible for the vision problems in stim2 zebrafish knockout. scRNA-sequencing of neuronal origin cells from brains of 5 dpf larvae identified 27 clusters. Differently expressed genes were detected in ten clusters including amacrine and GABAergic retinal interneurons and GABAergic optic tectum cells. In five clusters the proportion of cells in stim2 KO fish versus control was significantly decreased including GABAergic diencephalon and optic tectum, and was increased in amacrine and GABAergic retinal interneurons. Transmission Electron Microscopy in stim2 KO fish revealed decrease in width of inner plexiform layer (IPL), ganglion cells and their dendrites numbers what is characteristic for glaucoma. Analysis of cell density in the inner nucleus layer, which includes amacrine cells among others, showed a significant decrease in the number of GABAergic neurons. The area of cristae in photoreceptor mitochondria was statistically lower in stim2 KO than in control retinas.

Project description:To identify differentially expressed genes in the developmental mouse dorsal spinal cord, we characterized the global gene expression profiling of mouse embryonic dorsal spinal cord commissural neurons at E10.5, E11.5 and E12.5. We used the Affymetrix Mouse Exon 1.0 ST Array platform to analyze the gene expression profiling. We included the gene expression data obtained from dorsal spinal cord commissural neuron at different embryonic stage. 2 Biological replicates were performed.

Project description:IGH transcript computation in CLL