Project description:The amount of RNA sequencing data on skeletal muscle is very limited. We have analyzed a large set of human muscle biopsy samples and provide extensive information on the baseline skeletal muscle transcriptome, including completely novel protein-coding transcripts. Analyze of transcriptome in 24 skeletal muscle biopsy samples, 12 individuals and one biopsy per leg per individual. This experiment is linked to E-GEOD-58387.
Project description:The amount of RNA sequencing data on skeletal muscle is very limited. We have analyzed a large set of human muscle biopsy samples and provide extensive information on the baseline skeletal muscle transcriptome, including completely novel protein-coding transcripts.
Project description:The amount of RNA sequencing data on skeletal muscle is very limited. We have analyzed a large set of human muscle biopsy samples and provide extensive information on the baseline skeletal muscle transcriptome, including completely novel protein-coding transcripts.
Project description:Purpose: The main goal of this study is to compare skeletal muscle transcriptome profilings derived from muscle impaired versus healthy subjects. Methods: We use high coverage RNA sequencing of human skeletal muscle biopsies to analyze genome-wide transcriptional changes in human sarcopenia benchmarked to healthy elderly controls.
Project description:The amount of RNA sequencing data on skeletal muscle is very limited. We have analyzed a large set of human muscle biopsy samples and provide extensive information on the baseline skeletal muscle transcriptome, including completely novel protein-coding transcripts. Analyze of transcriptome in 23 skeletal muscle biopsy samples from six individuals. Four biopsies from each subject, two biopsies from each leg (except subject 6 which has only three biopsies in total). This experiment is linked to E-GEOD-58608.
Project description:Purpose: The main goal of this study is to compare skeletal muscle transcriptome profilings derived from sarcopenic versus healthy subjects. Methods: We use high coverage RNA sequencing of human skeletal muscle biopsies to analyze genome-wide transcriptional changes in human sarcopenia benchmarked to healthy elderly controls.