mTOR signaling response to resistance exercise is altered by chronic resistance training and detraining in skeletal muscle.
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Effect of electrical stimulation-induced resistance exercise on mitochondrial fission and fusion proteins in rat skeletal muscle.Resistance exercise increases active MMP and β1-integrin protein expression in skeletal muscle.Acute exercise induced mitochondrial H₂O₂ production in mouse skeletal muscle: association with p(66Shc) and FOXO3a signaling and antioxidant enzymes.Correlation between Ribosome Biogenesis and the Magnitude of Hypertrophy in Overloaded Skeletal Muscle.Intramuscular anabolic signaling and endocrine response following high volume and high intensity resistance exercise protocols in trained menThe role of mTOR signalling in the regulation of skeletal muscle mass in a rodent model of resistance exercise.Acute resistance exercise-induced IGF1 expression and subsequent GLUT4 translocation.Contraction mode itself does not determine the level of mTORC1 activity in rat skeletal muscle.The effect of protein timing on muscle strength and hypertrophy: a meta-analysisVoluntary resistance wheel exercise from mid-life prevents sarcopenia and increases markers of mitochondrial function and autophagy in muscles of old male and female C57BL/6J mice.Synchronous deficits in cumulative muscle protein synthesis and ribosomal biogenesis underlie age-related anabolic resistance to exercise in humans.Is there a minimum intensity threshold for resistance training-induced hypertrophic adaptations?Intramuscular Anabolic Signaling and Endocrine Response Following Resistance Exercise: Implications for Muscle Hypertrophy.Progressive resistance-loaded voluntary wheel running increases hypertrophy and differentially affects muscle protein synthesis, ribosome biogenesis, and proteolytic markers in rat muscle.EFFECTS OF PERIODIC AND CONTINUOUS RESISTANCE TRAINING ON MUSCLE STRENGTH IN DETRAINED WOMEN.Effects of age and unaccustomed resistance exercise on mitochondrial transcript and protein abundance in skeletal muscle of men.Effect of intermittent low-frequency electrical stimulation on the rat gastrocnemius muscle.Effects of leucine supplementation and resistance training on myopathy of diabetic rats.Changes in resting mitogen-activated protein kinases following resistance exercise overreaching and overtraining.Resting extracellular signal-regulated protein kinase 1/2 expression following a continuum of chronic resistance exercise training paradigms.Acute exercise stress promotes Ref1/Nrf2 signalling and increases mitochondrial antioxidant activity in skeletal muscle.Influence of past injurious exercise on fiber type-specific acute anabolic response to resistance exercise in skeletal muscle.Ursolic acid stimulates mTORC1 signaling after resistance exercise in rat skeletal muscle.The General Adaptation Syndrome: A Foundation for the Concept of Periodization.Combined effects of resistance training and calorie restriction on mitochondrial fusion and fission proteins in rat skeletal muscle.l-Leucine Increases Skeletal Muscle IGF-1 but Does Not Differentially Increase Akt/mTORC1 Signaling and Serum IGF-1 Compared to Ursolic Acid in Response to Resistance Exercise in Resistance-Trained Men.Downhill Running Excessive Training Inhibits Hypertrophy in Mice Skeletal Muscles with Different Fiber Type Composition.Acute bout of resistance exercise increases vitamin D receptor protein expression in rat skeletal muscle.Influence of resistance exercise intensity and metabolic stress on anabolic signaling and expression of myogenic genes in skeletal muscle.Concurrent treatment with ursolic acid and low-intensity treadmill exercise improves muscle atrophy and related outcomes in rats.Muscle Atrophy Due to Nerve Damage Is Accompanied by Elevated Myofibrillar Protein Synthesis RatesMuscular adaptations in low- versus high-load resistance training: A meta-analysis
P2860
Q32872008-45896D3D-6BC2-4EE1-8BC7-BE77BEB07D37Q34631948-CC4C95FB-A8B0-4E7E-BCB6-6A80292C35F0Q35271855-87F59B3A-331F-4E85-8B78-4D992538A44CQ35908321-6F0DD1B3-6BF4-428C-BDDD-F71E3BA81791Q36004396-8D05A82A-CDAE-4B24-9DBA-815103D5F2E9Q37160004-D86FE157-79AC-4E75-BD49-BD74F4149C55Q37212852-02B70F30-6F91-4103-B72F-A4E2D7A76567Q37339231-CFAD14E6-878A-40D5-A854-9A2A13A1BCF9Q37428926-58D7BA3B-D9F3-4A93-834C-CE5B7AE55051Q37501726-964DAE37-E8F7-4745-8A2B-22A58A6F70EEQ37504914-FE34D350-2DE3-4E13-9EB1-F08F2DDAE3BAQ38129771-E44C927B-35A6-4FF1-A926-D314F876C9E6Q38669070-09B77189-BBAD-4751-AB97-199EAD249E0AQ38907513-AFCFCDB9-7C1B-4EAF-BC01-6690E1D6A252Q40288419-C6348F42-11AD-424D-84D3-0D1D77111DCFQ41392862-F3C63EA9-C158-414E-80F5-09841391D4BCQ41989289-B9EC9FF0-C536-43BB-B6C3-33BD7CDC4BBAQ41999349-F0D2C3F1-1D33-438E-BA48-0E1CB6BC4A54Q46014188-EE3FD1BC-7AB8-4F49-910C-5B0C2F119963Q46266010-9CC5BDF8-166E-4FB5-85D9-1B0238C75EB8Q46622157-EF18CB91-8C42-452A-8E5E-A5621B3C240DQ47799259-5C7C3683-E1C4-4C8B-84A9-D75A76C920BDQ47897065-CA092C62-892C-45DC-BC81-32BE7E6E2BD1Q50146887-01963008-80A9-441A-88DD-E613DD56510FQ51563209-80840D03-46D2-4755-93B7-4ECF396A627FQ51688705-F8A59216-0BA2-4031-9F7A-C2CD14813A80Q53341441-B2FA7592-48AA-44A1-B06E-AC8EE24D3CD2Q53358954-C4FD28AA-7EB5-4BD4-AE03-D330A0FE0C36Q54345624-8791B2AF-C53E-479C-842F-4EDC180F9F43Q55415253-81F542C9-F21D-4583-9479-6BA93FA571EBQ57580280-6F4E3649-026C-4553-8529-627EA64473F1Q59319364-ED1618A5-C3CE-4AD9-9522-7D26B0DBD70B
P2860
mTOR signaling response to resistance exercise is altered by chronic resistance training and detraining in skeletal muscle.
description
2013 nî lūn-bûn
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2013年の論文
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2013年学术文章
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2013年学术文章
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2013年学术文章
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2013年学术文章
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2013年学术文章
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name
mTOR signaling response to res ...... detraining in skeletal muscle.
@en
mTOR signaling response to res ...... detraining in skeletal muscle.
@nl
type
label
mTOR signaling response to res ...... detraining in skeletal muscle.
@en
mTOR signaling response to res ...... detraining in skeletal muscle.
@nl
prefLabel
mTOR signaling response to res ...... detraining in skeletal muscle.
@en
mTOR signaling response to res ...... detraining in skeletal muscle.
@nl
P2093
P1476
mTOR signaling response to res ...... detraining in skeletal muscle
@en
P2093
Kihyuk Lee
Koichi Nakazato
Koji Kobayashi
Naokata Ishii
Satoshi Fujita
Takashi Abe
P304
P356
10.1152/JAPPLPHYSIOL.01161.2012
P407
P577
2013-01-31T00:00:00Z