scholarly article | Q13442814 |
P356 | DOI | 10.1111/APHA.12247 |
P698 | PubMed publication ID | 24495239 |
P50 | author | Leif Groop | Q27214742 |
Charlotte Ling | Q60057788 | ||
Tina Rönn | Q63127920 | ||
Ola Hansson | Q30504154 | ||
Oskar Hansson | Q30533735 | ||
P2093 | author name string | P. Volkov | |
K.-F. Eriksson | |||
Å. Tornberg | |||
T. Elgzyri | |||
P2860 | cites work | A six months exercise intervention influences the genome-wide DNA methylation pattern in human adipose tissue | Q21563356 |
Reduction in the Incidence of Type 2 Diabetes with Lifestyle Intervention or Metformin | Q22250892 | ||
Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles | Q24536351 | ||
Statistical significance for genomewide studies | Q24681264 | ||
Adipose tissue immunity and cancer | Q26862654 | ||
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Prevention of type 2 diabetes mellitus by changes in lifestyle among subjects with impaired glucose tolerance | Q28186874 | ||
Pathways to the analysis of microarray data | Q28255878 | ||
Large-scale association analysis provides insights into the genetic architecture and pathophysiology of type 2 diabetes | Q28272915 | ||
A PGC1-α-dependent myokine that drives brown-fat-like development of white fat and thermogenesis | Q28588558 | ||
PGC-1alpha-responsive genes involved in oxidative phosphorylation are coordinately downregulated in human diabetes | Q29547229 | ||
Exercise training, genetics and type 2 diabetes-related phenotypes | Q30417635 | ||
Gene expression of PPARgamma and PGC-1alpha in human omental and subcutaneous adipose tissues is related to insulin resistance markers and mediates beneficial effects of physical training | Q33801260 | ||
Genomics, type 2 diabetes, and obesity | Q34153899 | ||
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AMPK as a metabolic switch in rat muscle, liver and adipose tissue after exercise. | Q35178619 | ||
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Interactions of metabolic hormones, adipose tissue and exercise | Q36128734 | ||
Impact of an exercise intervention on DNA methylation in skeletal muscle from first-degree relatives of patients with type 2 diabetes | Q36410632 | ||
Acquired obesity and poor physical fitness impair expression of genes of mitochondrial oxidative phosphorylation in monozygotic twins discordant for obesity | Q36805439 | ||
Gene expression changes in adipose tissue with diet- and/or exercise-induced weight loss | Q37082102 | ||
Exercise, abdominal obesity, skeletal muscle, and metabolic risk: evidence for a dose response | Q37145972 | ||
AMPK and the biochemistry of exercise: implications for human health and disease | Q37386321 | ||
Genetic determinants of common obesity and their value in prediction | Q38002204 | ||
Evidence for adipose-muscle cross talk: opposing regulation of muscle proteolysis by adiponectin and Fatty acids | Q40086981 | ||
PGC-1alpha mRNA expression is influenced by metabolic perturbation in exercising human skeletal muscle. | Q42447512 | ||
A family history of diabetes is associated with reduced physical fitness in the Prevalence, Prediction and Prevention of Diabetes (PPP)-Botnia study | Q43068410 | ||
Effect of exercise on DNA methylation and metabolism in human adipose tissue and skeletal muscle | Q43868966 | ||
Fat oxidation at rest predicts peak fat oxidation during exercise and metabolic phenotype in overweight men. | Q51406398 | ||
Whole-body fat oxidation determined by graded exercise and indirect calorimetry: a role for muscle oxidative capacity? | Q51942919 | ||
IL-6 regulates exercise and training-induced adaptations in subcutaneous adipose tissue in mice | Q56240296 | ||
First-Degree Relatives of Type 2 Diabetic Patients Have Reduced Expression of Genes Involved in Fatty Acid Metabolism in Skeletal Muscle | Q57303471 | ||
P433 | issue | 1 | |
P921 | main subject | phosphorylation | Q242736 |
P304 | page(s) | 188-200 | |
P577 | publication date | 2014-03-10 | |
P1433 | published in | Acta Physiologica | Q2662816 |
P1476 | title | Extensive changes in the transcriptional profile of human adipose tissue including genes involved in oxidative phosphorylation after a 6-month exercise intervention | |
P478 | volume | 211 |
Q38528435 | DNA methylation as a diagnostic and therapeutic target in the battle against Type 2 diabetes |
Q53345467 | Does epigenetic dysregulation of pancreatic islets contribute to impaired insulin secretion and type 2 diabetes? |
Q61808058 | Effect of Exercise on Fatty Acid Metabolism and Adipokine Secretion in Adipose Tissue |
Q55277056 | Effects of Acute Aerobic Exercise on Rats Serum Extracellular Vesicles Diameter, Concentration and Small RNAs Content. |
Q60960138 | Exercise Induces White Adipose Tissue Browning Across the Weight Spectrum in Humans |
Q28081508 | Exercise and diabetes: relevance and causes for response variability |
Q52578638 | Exercise training alters the genomic response to acute exercise in human adipose tissue. |
Q49862294 | Exercise-induced 'browning' of adipose tissues. |
Q64956275 | Exercise-induced adaptations to white and brown adipose tissue. |
Q38542167 | High expectations: from treatment to prevention. |
Q36240701 | Immune adaptation to chronic intense exercise training: new microarray evidence |
Q57736683 | Impact of age, BMI and HbA1c levels on the genome-wide DNA methylation and mRNA expression patterns in human adipose tissue and identification of epigenetic biomarkers in blood |
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Q52846782 | Keeping in synch. |
Q36751475 | Less pronounced response to exercise in healthy relatives to type 2 diabetic subjects compared with controls |
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Q47348531 | No evidence of white adipocyte browning after endurance exercise training in obese men. |
Q38738906 | Omics and Exercise: Global Approaches for Mapping Exercise Biological Networks. |
Q34445824 | Organ-specific physiological responses to acute physical exercise and long-term training in humans |
Q64085533 | Targeting White Adipose Tissue with Exercise or Bariatric Surgery as Therapeutic Strategies in Obesity |
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