Basic disturbances in skeletal muscle fatty acid metabolism in obesity and type 2 diabetes mellitus.
about
Reduced glycaemic and insulinaemic responses following isomaltulose ingestion: implications for postprandial substrate useThe nuclear receptor, Nor-1, markedly increases type II oxidative muscle fibers and resistance to fatigue.Individual responses to completion of short-term and chronic interval training: a retrospective study.Transgenic muscle-specific Nor-1 expression regulates multiple pathways that effect adiposity, metabolism, and enduranceHuman genome comparison of paretic and nonparetic vastus lateralis muscle in patients with hemiparetic strokeExercise-induced improvements in cardiorespiratory fitness and heart rate response to exercise are impaired in overweight/obese postmenopausal women.Twenty-four hour total and dietary fat oxidation in lean, obese and reduced-obese adults with and without a bout of exerciseIntramuscular triacylglycerol and insulin resistance: guilty as charged or wrongly accused?Physical activity and health, novel concepts and new targets: report from the 12th Conference of the International Research Group on the Biochemistry of Exercise.Peroxisome proliferator-activated receptor γ decouples fatty acid uptake from lipid inhibition of insulin signaling in skeletal muscleFighting obesity: When muscle meets fat.Congenital and environmental factors associated with adipocyte dysregulation as defects of insulin resistance.Mid-arm muscle circumference as a significant predictor of all-cause mortality in male individuals.Perspective: A Historical and Scientific Perspective of Sugar and Its Relation with Obesity and Diabetes.Individuals with Metabolically Healthy Overweight/Obesity Have Higher Fat Utilization than Metabolically Unhealthy Individuals.Intramuscular lipid oxidation and obesity.Stable isotope- and mass spectrometry-based metabolomics as tools in drug metabolism: a study expanding tempol pharmacology.Hormone-sensitive lipase serine phosphorylation and glycerol exchange across skeletal muscle in lean and obese subjects: effect of beta-adrenergic stimulation.Carbohydrate intake and obesity.Metabolic profiling of PPARalpha-/- mice reveals defects in carnitine and amino acid homeostasis that are partially reversed by oral carnitine supplementationInsulin management in overweight or obese type 2 diabetes patients: the role of insulin glargine.Diabetes and stem cell function.In vivo multi-tissue efficacy of peroxisome proliferator-activated receptor-γ therapy on glucose and fatty acid metabolism in obese type 2 diabetic rats.Oxidation of intramyocellular lipids is dependent on mitochondrial function and the availability of extracellular fatty acids.Retinoblastoma Protein Knockdown Favors Oxidative Metabolism and Glucose and Fatty Acid Disposal in Muscle Cells.Effects of dietary fat modification on skeletal muscle fatty acid handling in the metabolic syndrome.Reduced glycaemic and insulinaemic responses following trehalose ingestion: implications for postprandial substrate use.Urinary F2-isoprostanes are not associated with increased risk of type 2 diabetes.A threshold exists for the stimulatory effect of insulin on plasma L-carnitine clearance in humans.Skeletal muscle fatty acid handling in insulin resistant men.Transcriptional Metabolic Inflexibility in Skeletal Muscle Among Individuals With Increasing Insulin Resistance
P2860
Q28254481-C87A3A26-9634-4D83-8D3B-4545CE624701Q33636629-8220E4E6-F733-437B-BEA0-B9A39B4A8D85Q33644724-44B8DD58-A41A-44B6-A6EA-612D0F2DCFF4Q33668991-10B990F4-99B1-447F-869C-56EA89E9AE19Q34506555-F96D162E-0A5B-473B-9415-82E2D49F30BBQ34978745-3676D541-049D-4AF3-A6FD-47B5264B836DQ35142991-F49746A8-508C-46E5-87CB-50100276ADC9Q35596985-1A1E1C9C-BC88-45A6-A8AA-D72D13C51D1AQ35855896-08A44B2E-D974-4C07-97B1-43980DDF946EQ35970084-5CE76040-806D-42A4-935E-E9E0F88B3C71Q35998806-CA5259EA-4733-492C-B028-DE7AC913C1B7Q36084615-AB0CA259-BBBB-45D8-8782-6F124D07ECE3Q36279853-0F8F6EAE-9A72-4143-91BE-175956D49F73Q36372585-F41E6AA8-E887-4C10-A55D-827361C4B032Q36507377-261D56B4-3113-45C0-851E-B7F5B26FB64EQ36632211-92FE7DB9-9D6A-487F-BB12-C8B49EE215C8Q36676188-8DD64D13-0B48-4141-9273-59810A0F4C7FQ36756537-3F7ADE70-5B5A-4DF0-AAC5-976414B1FF71Q36997141-DBE5BA72-9C03-4072-8384-66C60CC50756Q37072442-8BD6573C-2364-4C21-8192-38E847C3B81BQ37199318-58EAA17E-592F-44A6-A045-4D3FA9B9A56FQ41443846-E4051B37-45E9-4B74-A7E3-3AD23E10AE90Q41534968-17A277D9-D0D7-4682-B52F-106BD1C605FBQ42471040-FBE85D91-8987-4261-AA97-22D5D555383CQ42480668-B126738E-E124-47D8-973C-C52569699891Q43177123-BFE414C7-C57D-4039-9723-C0253E529DD5Q43296250-8EFFB194-FEB6-4437-93ED-05B222B7FBAEQ46750273-34401A62-1532-47CD-B348-7E7ACD033077Q51117528-E21F34E2-C0CE-4198-84FF-45F96ECBE311Q51379022-0BEEDEC3-87D9-461C-8888-5C52166438B2Q55162907-A8B745D9-C91F-4265-9313-E60BCEE0970C
P2860
Basic disturbances in skeletal muscle fatty acid metabolism in obesity and type 2 diabetes mellitus.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@ast
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@en
type
label
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@ast
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@en
prefLabel
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@ast
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@en
P2860
P921
P356
P1476
Basic disturbances in skeletal ...... and type 2 diabetes mellitus.
@en
P2093
P2860
P304
P356
10.1079/PNS2004361
P577
2004-05-01T00:00:00Z