Project description:It is unknown how soon the diaphragm begins to start the process of atrophy following the start of MV. We hypothesized that genes responsible for maintaining diaphragmatic contractile function, stress response, energy transduction would be altered over the course of a 5 hour cardiothoracic surgery.

Project description:PPARα act as the master of lipid metabolism in liver, however, the changes of its target genes after PHx and the effects of PPARα on regenerative genes were unknown. At 12 to 24 hours after PHx, the mice develope marked steatosis, therefore the time point of 12 hour after PHx was choosen to perform microarray analysis. We used microarray to detail the gene expression of WT (Pparafl/fl) mice and hepatocyte-specific PPARα disruption (Ppara△Hep) mice liver tissue at 12 hour after PHx or Sham operation

Project description:Ischemia-reperfusion injury (IRI) is a well-known model for acute kidney injury (AKI). We applied proteomic analysis to detect membrane proteins from IRI mouse kidneys. The analysis set are composed of negative control (sham operation), samples of 4-hour after IRI, and samples of 8-hour IRI.

Project description:Male C57Bl/6 mice were randomized to undergo 5 days of i) a shiftwork protocol (10-hour light: 10-hour dark cycle) before myocardial infarction (MI) surgery, ii) a normal 12-hour light: 12-hour dark environment before MI surgery, iii) a normal 12-hour light: 12-hour dark environment and used as sham controls, or iv) a shiftwork protocol (10-hour light: 10-hour dark cycle) and used as sham controls. MI surgery was performed on the 5th day, after which all mice were returned to a normal 12-hour light: 12-hour dark cycle. Hearts were collected 24-hours post-MI at ZT06. The microarray approach allows the investigation of transcriptome-wide gene expression changes in hearts from mice on a shiftwork cycle or on a regular light:dark cycle before MI.

Project description:This experiment investigated the role of mechanical ventilation (MV) in modulating lung's transcriptional response to LPS. Twenty four C57/B6 male mice were randomized to four groups: 1. Control, 2. MV, 3. LPS and 4. MV+LPS. Expression profiling of whole lungs revealed a significant augmentation of the transcriptional response in the combined MV+LPS group relative to the other 3 conditions.

Project description:We report the application of RNA sequencing technology for transcriptomics analysis of the effects of electrical stimulation on rat denervated gastrocnemius muscle. Muscle samples were selected for gene expression analyses，corresponding to the following categories: Sham operation rats, (SHAM, n = 3), sciatic nerve injury rats (DN, n = 3), and sciatic nerve injury with electrical stimulation (DN-SM, n = 3). A total of 14,334 genes (DEGs) were detected in this study.

Project description:This experiment investigated the role of mechanical ventilation (MV) in modulating lung's transcriptional response to LPS. Twenty four C57/B6 male mice were randomized to four groups: 1. Control, 2. MV, 3. LPS and 4. MV+LPS. Expression profiling of whole lungs revealed a significant augmentation of the transcriptional response in the combined MV+LPS group relative to the other 3 conditions. Keywords: repeat sample

Project description:RNASeq technology is applied to study the gene expression affected by ventilation in diaphragm and intercostal. Groups under short-term (6 hours to 4 days) or long-term (4.5 to 9 days) ventilation are included besides the healthy control group.

Project description:In order to study the protective effect of regardine on myocardial infarction, we injected regardine and physiological saline 1 hour before acute myocardial infarction, performed RNA seq, and compared their gene differential expression with each other, and compared them with the sham operation group.

Project description:Purpose: In the current study, we used RNA-Seq to determine the transcriptional changes and understand the genetic reprogramming of the diaphragm in the chronic phase post-myocardial infarction. Methods: Rat diaphragm mRNA profiles 16 weeks post Sham and Myocardial infarction (MI) surgeries were generated by deep sequencing using llumina NextSeq 500. The sequence reads that passed quality filters were analyzed at the transcript level with TopHat followed by Cufflinks. Results: After quality control and data filtering, on average, 33,972,308 raw reads per sample were obtained. For each sample, 88.49 % to 91.70 % reads were uniquely mapped to the rat reference genome. Median CV coverage uniformity was 0.45± 0.01. Distribution of mapped reads over DNA regions showed 48% of reads mapped to coding region, 20% of reads mapped to untranslated region (UTR), 12% of reads mapped to intron region, and 20% reads mapped to intergenic region. The resulting Sham and MI transcriptomes, created from generated transcriptomes of each individual sample in each group and merged transcriptomes within the same group, were used for differential gene expression analysis. A total of 112 differentially expressed genes (DEGs) were identified out of a total of 9664 genes with measured expression in MI and Sham groups. Among DEGs, 42 were upregulated and 70 were downregulated in the MI group. Hierarchical clustering heat map, pathway enrichment and gene ontology (GO) analyses, and analysis of DEGs in the framework skeletal muscle-specific biological networks were performed. Conclusions: Our study represents the first detailed analysis of diaphragm transcriptomes post-myocardial infarction generated by RNA-Seq technology.