Project description:Genomic and behavioral investigations were performed to determine the effects of a mutation in a Drosophila soluble guanylyl cyclase gene. A mutant DGCalpha1[3] third chromosome was crossed into a natural rover (for[R]) or natural sitter (for[s]) genetic background. (See Osborne et al. 1997; PMID: 9242616.) First instar larvae were collected and grown on 60mm Petri plates containing 10 mL of food until mid-third instar. (Approximate density was 3 animals per mL food). Larvae were collected and washed quickly with distilled water and were flash frozen in liquid nitrogen. Co-reared larvae were tested for behavioural effects. Four independent collections were made for each of the two conditions (Rover_DGCalpha1[3] or sitter_DGCalpha1[3]). Keywords = Drosophila Keywords = foraging Keywords = behavior Keywords = cGMP Keywords = guanylyl cyclase Keywords = genetic background
Project description:Genomic and behavioral investigations were performed to determine the effects of a mutation in a Drosophila soluble guanylyl cyclase gene. A mutant DGCalpha1[3] third chromosome was crossed into a natural rover (for[R]) or natural sitter (for[s]) genetic background. (See Osborne et al. 1997; PMID: 9242616.) First instar larvae were collected and grown on 60mm Petri plates containing 10 mL of food until mid-third instar. (Approximate density was 3 animals per mL food). Larvae were collected and washed quickly with distilled water and were flash frozen in liquid nitrogen. Co-reared larvae were tested for behavioural effects. Four independent collections were made for each of the two conditions (Rover_DGCalpha1[3] or sitter_DGCalpha1[3]). Keywords = Drosophila Keywords = foraging Keywords = behavior Keywords = cGMP Keywords = guanylyl cyclase Keywords = genetic background Keywords: other
Project description:The aberrant activation of the ERG oncogenic pathway due to TMPRSS2-ERG gene fusions is the major driver of prostate cancer initiation and progression. We identified the alpha1 and beta1 subunits of soluble guanylyl cyclase (GUCY1A1, GUCY1B1) as major ERG-regulated genes in prostate cancer cells. Soluble guanylyl cyclase (sGC) is the major mediator of nitric oxide signaling in cells that, upon nitric oxide binding, catalyzes the synthesis of cGMP and subsequently activates PKG. We showed in ERG-positive PCa cells (VCaP) that cGMP synthesis was significantly elevated by ERG, leading to increased PKG activity and cell proliferation. To further understand the functions of sGC-cGMP pathway in prostate cancer cells, we performed RNA-seq analyses in VCaP cells to identify genes that are regulated by sGC.
Project description:A novel mouse harbouring a mutation in receptor guanylyl cyclase C (Gucy2c) that is equivalent to that seen in patients with Familial GUCY2C syndrome was established. Since patients are susceptible to colitis-like disease and IBD, RNAseq was performed on the distal colon in these mice to identify global transcriptome changes that arise as a consequence of this mutation Gucy2c.
Project description:Increasing cGMP levels by modulating soluble guanylyl cyclase (sGC) can be renoprotective. While sGC stimulators can modulate cGMP levels, their application is limited as they require native sGC to function. sGC activators on the other hand can function with heme-free sGC. Therefore, we tested the renoprotective effects of the sGC activator BAY 60-2770 that also functions with oxidized sGC in an acute kidney injury (AKI) model with transition to chronic kidney disease (CKD). In order to study the effects of BAY 60-2770 on gene expression in tubular cells, we used the proximal tubular cell line HK-2 as a model. To mimic the ischemia and fibrosis observed in vivo, we subjected HK-2 cells to hypoxia and TGF-β1 treatment, respectively. RNASeq analysis showed that BAY 60-2770 had a significant influence on the expression of genes involved in fibrosis, inflammation and tissue damage after both hypoxia and TGF-β1 treatments.
Project description:To study the role of GC-A and p38MAPK in podocytes, we used microarray analysis and compared gene expression profiles of the glomerulus of GC-A fl/fl p38 fl/fl Nephrin-Cre(Cre/+) mice and GC-A fl/fl p38 fl/fl Nephrin-Cre (+/+) mice. GC-A: guanylyl cyclase-A
2023-06-27 | GSE182344 | GEO
Project description:Cardiomyocyte Soluble Guanylyl Cyclase is Necessary for Estrogen Cardioprotection Against Capillary Rarefaction in Right Ventricular Pressure-Overload Remodeling
