Project description:There is a temporal window from the time diabetes is diagnosed to the appearance of overt kidney disease during which time the disease progresses quietly without detection. Currently, there is no way to detect early diabetic nephropathy (EDN). Here we performed an unbiased assessment of gene-expression analysis of postmortem human kidneys using microarrays to identify candidate genes that may contribute to EDN.

Project description:We report the early transcriptional changes in human diabetic nephropathy by single nucleus RNA sequencing

Project description:Gene expression profiling in glomeruli from human kidneys with diabetic nephropathy Keywords = Diabetes Keywords = kidney Keywords = glomeruli Keywords: other

Project description:Transcriptional profiling of human PBMCs comparing healthy controls, patients with diabetic nephropathy and patients with ESRD. PBMCs were analyzed as they mediate inflammatory injury. Goal was to determine effects of increasing severity of diabetic nephropathy on global PBMC gene expression. Microarray analysis of PBMCs taken from patients with varying degrees of diabetic nephropathy.

Project description:diabetes, mouse models, diabetic nephropathy, streptozotocin db/db Keywords: other

Project description:In order to more accurately and objectively clarify the biological role of lncRNAs in diabetic nephropathy, we detected their expression profiles in renal tissues from patients with diabetic nephropathy.

Project description:Diabetic nephropathy and diabetic retinopathy are related. We used scRNA-seq and RNA-seq to analyze the cellular linkage between them.

Project description:The Single Cell Transcriptomic Landscape of Early Human Diabetic Nephropathy

Project description:gut microbiome in diabetic nephropathy

Project description:Angiotensin II is a key factor driving diabetic nephroparthy via ist AT1R. The role of ist AT2R in diabetic nephropathy is less known, however assumed to be renoprotective We used microarray data to study the effect of transgenic renal AT2R overexpression on the renal expression profile at early stages of diabetes