Project description:Through its activity in stereocilia, MYO7A (myosin VIIA) is essential for hair cell function in the inner ear. Utilizing multiple stages of immunoaffinity enrichment, we have developed a strategy that allows us to partially purify stereocilia membranes from thousands of chick inner ears and isolate low-abundance MYO7A protein complexes from those membranes. The D10 stereocilia membrane enrichment protocol involves density centrifugation steps and immuno-enrichment of stereocilia using the D10 antibody, directed against the major stereocilia transmembrane protein PTPRQ. The data in this submission document the effectiveness of the enrichment procedure.

Project description:Plasmodium falciparum strain D10

Project description:Vaccinia virus D10 has broad decapping activity that is regulated by mRNA splicing

Project description:Transcriptional profiling of parental S. cerevisiae San I cells in comparison with its translocant derivative D10 Small strain. The latter strain was obtained using Bridge Induced translocation technique between DUR3 gene (Chromosome VIII) and ADH1 gene (Chromosome XV), and exhibited an abnormal phenotype comprising elongated buds and multi-budded, unevenly nucleated pseudo-hyphae. Goal was to demonstrate how chromosomal translocations can influence gene expression of translocant and other chromosomes. Two-condition experiment, direct comparison of Saccharomyces cerevisiae D10 small (4 biological replicates) vs. pooled WT San I (reference) cells.

Project description:Achromobacter sp. D10 Genome sequencing and assembly

Project description:Transcriptional profiling of parental S. cerevisiae San I cells in comparison with its translocant derivative D10 Small strain. The latter strain was obtained using Bridge Induced translocation technique between DUR3 gene (Chromosome VIII) and ADH1 gene (Chromosome XV), and exhibited an abnormal phenotype comprising elongated buds and multi-budded, unevenly nucleated pseudo-hyphae. Goal was to demonstrate how chromosomal translocations can influence gene expression of translocant and other chromosomes.

Project description:Brassica rapa FPsc S7 D10 Resequencing genome sequencing

Project description:alpha proteobacterium SCGC AAA028-D10 overview

Project description:Background Vaccinia virus (VACV) infection induces prominent changes in host cell metabolism. Little is known about the global metabolic reprogramming that takes place in the whole tissue during viral infection. Here, we performed an unbiased longitudinal metabolomics study in VACV-infected mice to investigate metabolic changes in the tissue during infection. We assessed metabolites in homogenized skin over time in the presence or absence of antigen-specific T cells using untargeted mass spectrometry. VACV infection induced several significant metabolic changes, including in the levels of nucleic acid metabolites (reflecting the impact of viral replication on the skin metabolome). Furthermore, monocyte- and antiviral T cell-produced metabolites, including itaconic acid, glutamine, and glutathione, were significantly increased following infection, highlighting the immune response’s contribution to the global skin metabolome. Additional RNA-Seq of infected skin tissue recapitulated transcriptional changes identified via metabolomics. Overall, our study reveals the metabolic balance of viral replication and the antiviral immune response in the skin and identifies metabolic pathways that could contribute to cutaneous poxvirus control in vivo.

Project description:Flavobacterium psychrophilum strain:FPS-D10 Genome sequencing