Differential transcriptional activation of select metabolic genes in response to variations in exercise intensity and duration.
about
miRNA in the regulation of skeletal muscle adaptation to acute endurance exercise in C57Bl/6J male miceRapid upregulation of pyruvate dehydrogenase kinase activity in human skeletal muscle during prolonged exerciseMethods of prescribing relative exercise intensity: physiological and practical considerationsThe impact of dietary energy intake on cognitive aging.The role of milk- and soy-based protein in support of muscle protein synthesis and muscle protein accretion in young and elderly persons.PGC-1alpha coactivates PDK4 gene expression via the orphan nuclear receptor ERRalpha: a mechanism for transcriptional control of muscle glucose metabolismPyruvate dehydrogenase kinase-4 contributes to the recirculation of gluconeogenic precursors during postexercise glycogen recovery.Short-term sprint interval versus traditional endurance training: similar initial adaptations in human skeletal muscle and exercise performance.Exercise preconditioning improves traumatic brain injury outcomes.Genomic structure and regulation of mitochondrial uncoupling protein genes in mammals and plants.Extracorporeal membrane oxygenation promotes long chain fatty acid oxidation in the immature swine heart in vivo.Muscle fatigue during football match-play.Gene response of the gastrocnemius and soleus muscles to an acute aerobic run in ratsBeneficial effects of exercise on muscle mitochondrial function in diabetes mellitus.Interval and continuous exercise training produce similar increases in skeletal muscle and left ventricle microvascular density in ratsFVB/NJ Mice Are a Useful Model for Examining Cardiac Adaptations to Treadmill Exercise.Maximal oxygen consumption in healthy humans: theories and facts.Acute regulation of metabolic genes and insulin receptor substrates in the liver of mice by one single bout of treadmill exercise.Role of microRNAs on the Regulation of Mitochondrial Biogenesis and Insulin Signaling in Skeletal Muscle.Distinct protein and mRNA kinetics of skeletal muscle proton transporters following exercise can influence interpretation of adaptations to training.Overexpression of the orphan receptor Nur77 alters glucose metabolism in rat muscle cells and rat muscle in vivo.Loss of Akt1 in mice increases energy expenditure and protects against diet-induced obesity.Effects of decreased lactate accumulation after dichloroacetate administration on exercise training-induced mitochondrial adaptations in mouse skeletal muscleSkeletal muscle AMPK is essential for the maintenance of FNDC5 expressionLack of Additive Effects of Resveratrol and Energy Restriction in the Treatment of Hepatic Steatosis in RatsEffect of dietary glycemic index on substrate transporter gene expression in human skeletal muscle after exercise.Exercise in the fasted state facilitates fibre type-specific intramyocellular lipid breakdown and stimulates glycogen resynthesis in humans.Exercise increases SOCS-3 expression in rat skeletal muscle: potential relationship to IL-6 expression.Acute exercise-induced changes in basal VLDL-triglyceride kinetics leading to hypotriglyceridemia manifest more readily after resistance than endurance exercise.Roles of exercise and pharmacokinetics in cerivastatin-induced skeletal muscle toxicity.Adaptations to aerobic interval training: interactive effects of exercise intensity and total work duration.Role of pyruvate dehydrogenase kinase 4 in regulating PDH activation during acute muscle contraction.Gene expression in skeletal muscle of coronary artery disease patients after concentric and eccentric endurance training.Low-fat diet, and medium-fat diets containing coconut oil and soybean oil exert different metabolic effects in untrained and treadmill-trained mice.Glycogenin activity and mRNA expression in response to volitional exhaustion in human skeletal muscle
P2860
Q21143777-B316A3D3-8EE6-44FF-B564-3BF46F5E5E4DQ28264050-AF6BE71F-CC50-49ED-9240-61E9183B9F04Q28289641-E59C93A0-DC5D-4B40-AF17-56A80024B3AAQ33868403-22A0207C-BF63-4113-8F06-B0A3F230B0AFQ34108429-1AB04BC8-D946-470B-AAE1-494B0A0D5DD7Q34230877-334A1EAD-C0BB-46F3-A5CB-14D3E677AD6BQ34389732-13FA8EE5-CB48-4C14-9D14-45766BD3382AQ34568920-80102717-3D9F-4908-9F21-0B3BFA4E03E3Q36037599-C3F150DF-85AF-4D50-921A-2FB663EBCEB3Q36311631-18FA1171-232E-4EEC-9BE3-DBDF614A8F8AQ37085587-272410AE-0FFF-4844-98E4-BA240E549F81Q37139744-C7A2F081-1486-4FD6-BD52-3E81201D7B3AQ37144238-C8A2B01E-CAAA-416C-8A6D-B577ED4E2902Q37247001-38B3DDEA-F765-49DA-82EE-F625C8D4FAA1Q37382466-6EA62ACD-1955-41C7-9704-9A1908E36D66Q37521348-6B1D33E8-57D5-4419-8447-6E41879C1ADBQ38225478-7854FC8A-6F98-4B46-9FB5-B565C34E417CQ38359126-835A3146-7AFE-4A1A-9EA9-B217CC5E675DQ38979526-702E602A-9871-4353-BA19-EF14C4B20539Q39334822-48F4AC4E-A10A-466F-9BA4-23F55218F9FDQ39729941-43900A9C-7855-472F-9845-FC682D59E676Q40313842-753B084B-560A-432F-92A6-9D7F7D34C8FAQ40488675-5B6C8EB2-ADCD-4ABF-B5FA-5B2BF3EC35FEQ40967296-3D77719E-A1E0-4D57-9373-130AA390AF87Q41195335-615C1401-FDB5-4856-B8D2-77D711030134Q43286139-080F8A96-FBAD-4820-9453-28F892713A3CQ45261139-24292ABC-2C68-45BF-BE3E-6AA386805D8FQ45933663-ECEB3270-7D57-4E0F-91BC-4426018A7211Q46453160-5ACBDC40-D8A2-4D61-AF47-3613AD73F543Q46686112-5EE22A45-FEA8-4008-86B1-012A8C640E51Q51430392-A8EBFDE2-5A8B-408F-A7E2-6CE3E5CF4C26Q54540959-42A696CA-81D1-4A2E-9CEC-4C121FA5F5E4Q54629680-1E6BC663-3A9F-4207-98EB-78CD948283BCQ55332926-320D6EE5-CFC0-4C51-A27B-8DF16EA70EE7Q58172166-69C88EFE-9C87-421A-A7E8-24FA71EC6C98
P2860
Differential transcriptional activation of select metabolic genes in response to variations in exercise intensity and duration.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Differential transcriptional a ...... ercise intensity and duration.
@en
Differential transcriptional a ...... ercise intensity and duration.
@nl
type
label
Differential transcriptional a ...... ercise intensity and duration.
@en
Differential transcriptional a ...... ercise intensity and duration.
@nl
prefLabel
Differential transcriptional a ...... ercise intensity and duration.
@en
Differential transcriptional a ...... ercise intensity and duration.
@nl
P1476
Differential transcriptional a ...... ercise intensity and duration.
@en
P2093
Audrey L Hildebrandt
P Darrell Neufer
P304
P356
10.1152/AJPENDO.00234.2003
P577
2003-08-05T00:00:00Z