1Q10 The mechanism of decreased glucose transport activity in glycogen supercompensated muscle
スポンサーリンク
概要
著者
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KAWANAKA Kentaro
Department of Health and Nutrition, Niigata University of Health and Welfare
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Sano Akiko
Department Of Health And Nutrition Niigata University Of Health And Welfare
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Kawanaka Kentaro
Department Of Health And Nutrition Niigata University Of Health And Welfare
関連論文
- A NOVEL PITUITARY TRANSCRIPTION FACTOR, PAIRED-RELATED HOMEOBOX FACTOR 2, REGULATES GONADOTROPIN SUBUNIT GENES
- DISTINCTION BETWEEN LIM HOMEODOMAIN TRANSCRIPTION FACTORS LHX2 AND LHX3
- 1A-O-5 Brain glycogen reduction elicited by moderate intensity exercise without hypoglycemia(The Proceedings of the 18th Annual Meetings of Japan Society Exercise and Sports Physiology Jury 31 August 1, (Kagoshima))
- 1-O-22 Effects of various durations of running exercise on brain glycogen metabolism in rats(The Proceedings of the 17th Annual Meetings of Japan Society of Exercise and Sports Physiology Jury 25-26, (Tokyo))
- Administration of Royal Jelly Protein during a Period of Exercise Training Produces an Additive Effect on Endurance Performance in Young Male Rats
- 1A-21 Impact of high-intensity intermittent swimming on activation of intramuscular signaling(Sports Biochemistry, The Proceedings of the 13th Annual Meetings of Japan Society of Exercise and Sports Physiology July 30-31, (Tokyo))
- 1Q10 The mechanism of decreased glucose transport activity in glycogen supercompensated muscle
- P1-29 The mechanism of reduced insulin-stimulated glucose uptake in glycogen supercompensated muscle(The Proceedings of the 12th Annual Meetings of Japan Society of Exercise and Sports Physiology)
- Acute bouts of low-intensity prolonged exercise do not change leptin sensitivity in hypothalamus of rats
- The effects of β-adrenergic stimulation and exercise on NR4A3 protein expression in rat skeletal muscle
- Negative Feedback System for Glycogen Synthesis in Skeletal Muscle(Mini Symposium, 13th October,2002)
- The effect of high-intensity intermittent swimming on post-exercise glycogen supercompensation in rat skeletal muscle