Project description:Ecitoglossa quadriceps isolate:VNSX7NTE4P Genome sequencing and assembly

Project description:Dinoponera quadriceps overview

Project description:Dinoponera quadriceps Transcriptome or Gene expression

Project description:Dinoponera quadriceps Transcriptome or Gene expression

Project description:We report bulk RNA-sequencing of quadriceps muscle harvested from MyoCre and skeletal muscle specific KLF15 (K15-SKO) mice

Project description:Transcript data from quadriceps skeletal muscle from fasted-state male BXD strains on Quadriceps, Chow or Quadriceps, High fat diet We used microarrays to compare the skeletal muscle expression differences across males in the BXD strain family and across two diverse diets

Project description:Background: An anterior cruciate ligament tear (ACLT) leads to protracted quadriceps weakness and atrophy. Protein turnover largely dictates muscle size and is highly responsive to injury and loading. Regulation of the molecular protein synthetic machinery within the quadriceps following ACLT has largely been unexplored, limiting the development of targeted therapies. Purpose: To define the effect of ACLT on 1) activation of protein synthetic and catabolic signaling within quadriceps biopsies from human participants, and 2) the time course of alterations to protein synthesis and its molecular regulation in a mouse model of ACL injury. Study Design: Descriptive laboratory studyMethods: Muscle biopsy specimens were obtained from the ACL-injured and non-injured vastus lateralis of young adults following an overnight fast (n=21, mean ± SD: 19 ± 5 years). Mice had their limbs assigned to ACLT or control, and whole quadriceps were collected 6 hours, 1, 3, or 7 days post-injury with puromycin (0.04µmol/g) injected 30 minutes before tissue collection. Muscle fiber size and expression and phosphorylation of protein anabolic signaling proteins and E3 ubiquitin ligases were assessed at the protein and transcript level. Relative protein synthesis was measured by puromycin incorporation in mice.Results: Human quadriceps showed reduced phosphorylation of ribosomal protein S6 (-41%) in the ACL-injured limb (p<0.05), in addition to elevated phosphorylation of eukaryotic initiation factor 2α (+98%, p<0.05), indicative of depressed protein anabolic signaling in the injured limb. No differences in E3 ubiquitin ligase expression were noted (p>0.05). Protein synthesis was lower at 1 and 3 days post-ACLT in mice (p<0.05 vs. control limb). Conclusions: 1) Global protein synthesis and anabolic signaling deficits occur in the quadriceps in response to ACL injury, without notable changes in measured markers of muscle protein catabolism. 2) Importantly, these deficits occur prior to the onset of significant atrophy, underscoring the need for early intervention. Clinical Relevance: These findings suggest blunted protein anabolism as opposed to increased catabolism likely mediates the quadriceps atrophy that occurs following ACL injury. Thus, future interventions should aim to restore muscle protein anabolism rapidly following the initial injury.

Project description:Background: An anterior cruciate ligament tear (ACLT) leads to protracted quadriceps weakness and atrophy. Protein turnover largely dictates muscle size and is highly responsive to injury and loading. Regulation of the molecular protein synthetic machinery within the quadriceps following ACLT has largely been unexplored, limiting the development of targeted therapies. Purpose: To define the effect of ACLT on 1) activation of protein synthetic and catabolic signaling within quadriceps biopsies from human participants, and 2) the time course of alterations to protein synthesis and its molecular regulation in a mouse model of ACL injury. Study Design: Descriptive laboratory studyMethods: Muscle biopsy specimens were obtained from the ACL-injured and non-injured vastus lateralis of young adults following an overnight fast (n=21, mean ± SD: 19 ± 5 years). Mice had their limbs assigned to ACLT or control, and whole quadriceps were collected 6 hours, 1, 3, or 7 days post-injury with puromycin (0.04µmol/g) injected 30 minutes before tissue collection. Muscle fiber size and expression and phosphorylation of protein anabolic signaling proteins and E3 ubiquitin ligases were assessed at the protein and transcript level. Relative protein synthesis was measured by puromycin incorporation in mice.Results: Human quadriceps showed reduced phosphorylation of ribosomal protein S6 (-41%) in the ACL-injured limb (p<0.05), in addition to elevated phosphorylation of eukaryotic initiation factor 2α (+98%, p<0.05), indicative of depressed protein anabolic signaling in the injured limb. No differences in E3 ubiquitin ligase expression were noted (p>0.05). Protein synthesis was lower at 1 and 3 days post-ACLT in mice (p<0.05 vs. control limb). Conclusions: 1) Global protein synthesis and anabolic signaling deficits occur in the quadriceps in response to ACL injury, without notable changes in measured markers of muscle protein catabolism. 2) Importantly, these deficits occur prior to the onset of significant atrophy, underscoring the need for early intervention. Clinical Relevance: These findings suggest blunted protein anabolism as opposed to increased catabolism likely mediates the quadriceps atrophy that occurs following ACL injury. Thus, future interventions should aim to restore muscle protein anabolism rapidly following the initial injury.

Project description:In this experiment we catalogue transcriptional changes accompanying COPD in the quadriceps. We measure global gene transcription in the quadriceps using Affymetrix HuGene 1.1 ST arrays in an unselected cohort of 79 stable COPD patients in secondary care and 16 healthy age-and gender-matched controls. We identified 1,826 differentially expressed transcript clusters, comprising 6 modules of co-expressed genes, which differentially associate with clinical and immunological features of COPD.

Project description:Transcript data from quadriceps skeletal muscle from fasted-state male BXD strains on Quadriceps, Chow or Quadriceps, High fat diet We used microarrays to compare the skeletal muscle expression differences across males in the BXD strain family and across two diverse diets 29-week-old male mice were fasted overnight (6pm-9am), anesthetized under isoflurane, and perfused, then quadriceps were snap-frozen in liquid nitrogen for RNA extraction and RNEasy cleanup. Each dietary and strain cohort consisted of ~5 animals which were prepared independently then pooled evenly by M-BM-5g RNA before the Affymetrix arrays were run.