Project description:RNA-Seq to compare hypoxia responses between human and rhesus macaque iPSC-CMs

Project description:To understand the role of MEF2A in iPSC-CMs maturation, we used MEF2A-siRNA to reduce MEF2A transcription in iPSC-CMs and then examined the changes in transcription levels

Project description:We used human iPSC-CMs generated from healthy individuals and performed RNA-sequencing after 7 days of trastuzumab treatment to examine the mechanism associated with contraction dysfunction in iPSC-CMs after trastuzumab treatment. Transcriptome analysis revealed the key role of an altered energy metabolism pathway for cardiomyocytes in the disease pathogenesis.

Project description:We used human iPSC-CMs generated from healthy individuals and performed RNA-sequencing after 5 days of trastuzumab treatment to examine the mechanism associated with cardiac dysfunction in iPSC-CMs after iron treatment. Transcriptome analysis revealed broad changes in cardiovascular development and processes.

Project description:Statins prevent cardiovascular disease via their salutary function as inhibitors of cholesterol biosynthesis and mediators of pleiotropic effects on the cardiovascular system. The current study focuses on the class effect of statins on the transcriptome of human iPSC-derived cardiomyocytes (iPSC-CMs), applied at serum peak concentrations. We report a comprehensive transcriptomic analysis of iPSC-CMs derived from four healthy donors and different differentiation batches following treatment with fluvastatin, simvastatin, atorvastatin, and lovastatin. Our data display dynamic transcriptional networks and reveal a statin-induced molecular signature in iPSC-CMs independent of genetic background and technical variability. Finally, in-depth pathway enrichment analysis uncovers that all statins affect mainly metabolic properties of iPSC-CMs and particularly the regulation of cholesterol biosynthesis and fatty acid metabolism. Our study provides a global insight into the cardiomyocyte effects of statins revealing novel aspects of their role on cardiomyocyte metabolic regulation, when applied at clinically relevant concentrations.

Project description:ra05-11_cmsrapeseed - rfppr - -To understand how/if fertility and the mitochondrial background are interlinked. -To understand how the mitochondrial background influences the nuclear gene expression. -Compare and describe the total nuclear gene expression of CMS vs. fertile and CMS vs. Restored. -Describe and analyse genes that differ in expression (of special interest are genes that differs in both comparisons). -Group genes e.g. floral genes, highly expressed genes, transcription factors, nuclear encoded genes targeted for the mitochondrion. -Comparing two CMS-systems to elucidate differences and similarities between them. - Flower buds from three B. napus lines (Pactol, CMS, Rfo PPR) at one developmental stage (stage 8). Keywords: wt vs mutant comparison 6 dye-swap - CATMA arrays

Project description:Long non-coding RNA LIPTER effect on human iPSC-CMs and mouse heart

Project description:Our study aims to illustrate the potential use of atrial iPSC-CMs for modeling AF in a dish, elucidating the underlying cellular mechanisms, and identifying novel mechanism-based therapies custom-tailored for individual patients

Project description:Two healthy control iPSC lines were differentiated into iPSC-CMs

Project description:Tandem Mass Tag-Based proteomic analysis was performed to detect protein expression changes between gene correction and LMNA mutation iPSC-CMs