p53 is necessary for the adaptive changes in cellular milieu subsequent to an acute bout of endurance exercise.
about
Autophagy is essential to support skeletal muscle plasticity in response to endurance exerciseMolecular mechanisms for mitochondrial adaptation to exercise training in skeletal muscle.Impact of Aging and Exercise on Mitochondrial Quality Control in Skeletal Muscle.Silkworm pupae powder ingestion increases fat metabolism in swim-trained rats.The regulation of autophagy during exercise in skeletal muscleMitochondria, muscle health, and exercise with advancing age.Autophagy as a Potential Target for Sarcopenia.Molecular mechanisms underlying protective effects of quercetin against mitochondrial dysfunction and progressive dopaminergic neurodegeneration in cell culture and MitoPark transgenic mouse models of Parkinson's Disease.Role of the mitochondrial DNA replication machinery in mitochondrial DNA mutagenesis, aging and age-related diseases.Mitochondria in the middle: exercise preconditioning protection of striated muscle.Beneficial effects of exercise on age-related mitochondrial dysfunction and oxidative stress in skeletal muscle.Autophagy-Dependent Beneficial Effects of Exercise.Fuel for the work required: a practical approach to amalgamating train-low paradigms for endurance athletes.The fine tuning of metabolism, autophagy and differentiation during in vitro myogenesis.Exercise-induced metabolic fluctuations influence AMPK, p38-MAPK and CaMKII phosphorylation in human skeletal muscle.Coordinated Metabolic Changes and Modulation of Autophagy during Myogenesis.Effect of p53 on mitochondrial morphology, import, and assembly in skeletal muscle.The guardian of the genome p53 regulates exercise-induced mitochondrial plasticity beyond organelle biogenesis.Skeletal Muscle Fibre-Specific Knockout of p53 Does Not Reduce Mitochondrial Content or Enzyme Activity.A systematic review of p53 regulation of oxidative stress in skeletal muscle.Exercise induces TFEB expression and activity in skeletal muscle in a PGC-1α-dependent manner.Cold-water immersion following sprint interval training does not alter endurance signaling pathways or training adaptations in human skeletal muscle.Function of specialized regulatory proteins and signaling pathways in exercise-induced muscle mitochondrial biogenesis.Exercise-Induced Autophagy in Fatty Liver Disease.Rapidly elevated levels of PGC-1α-b protein in human skeletal muscle after exercise: exploring regulatory factors in a randomized controlled trial.Effects of hydroxytyrosol dose on the redox status of exercised rats: the role of hydroxytyrosol in exercise performance.The Role of p53 in Determining Mitochondrial Adaptations to Endurance Training in Skeletal Muscle
P2860
Q27000625-1E044A9F-9209-48E9-B1D4-19E805F35740Q30278688-069103F4-9391-4508-9292-CEC0E545847FQ33800755-A1BCF773-5611-40F7-9A6D-9AA5A4C786FFQ34563417-F3CEB2F2-C3A2-4B5D-BC93-667686937FB3Q36698649-3B5D49E3-A2E4-4E22-93A5-59A202D673C0Q38453882-F80FF5F0-B2C6-4C25-AE68-3ABBF5A575ADQ38637495-8DF27957-C46C-4BBF-A412-76B0BE77993FQ38708951-4E69269D-D7FF-4D4C-9991-85393EF423A1Q38824997-F2711E4C-1AD5-44F5-96FD-D904CF51FA22Q38883697-217E02D0-9539-48CE-9AF0-2995E9EF913FQ38949760-2DB4B662-15C8-485A-88BB-BDA596A2779CQ39167062-56BAF4F1-1A1B-449D-8660-69D44BDD3145Q39736012-97840415-E7E9-40AD-AC40-4CB44FA7BA8CQ39947245-6776D388-362D-4CCB-93B2-3501BB0AA5B2Q41881893-89A328CB-D149-4EE9-905A-A4153ABEEDB3Q41931733-CA09F852-365C-4168-9CD7-9348DB992879Q42556101-EAABA602-3780-45ED-A6CB-EB35F59F1658Q46253613-9E4915AA-7BAA-4B5D-9047-6E8C9573F1B5Q47109307-B4AFDFCE-4CF8-4855-9F6F-9060C9C1D2BCQ47235068-E764DB75-CA99-4258-87D0-DC0A49B51E9DQ47608212-6B2E532D-62C9-4832-A5FB-20896AE80C62Q47842412-57F3F876-D260-4688-A569-5EF01AF2A6F4Q51024961-1D3AF6B7-71AE-4A67-8BCF-218AA1CF0D22Q51828026-8BDE7B24-86FF-4C2D-BC20-FE903B5D6232Q53462169-B4FE61AE-F331-474A-8592-A580609FEEB4Q54957116-B3131963-CB2D-4E9E-92FF-58F73B5B20E8Q57050400-17865E6E-E57B-451D-9E8F-320F1529E794
P2860
p53 is necessary for the adaptive changes in cellular milieu subsequent to an acute bout of endurance exercise.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
p53 is necessary for the adapt ...... te bout of endurance exercise.
@en
type
label
p53 is necessary for the adapt ...... te bout of endurance exercise.
@en
prefLabel
p53 is necessary for the adapt ...... te bout of endurance exercise.
@en
P2860
P1476
p53 is necessary for the adapt ...... ute bout of endurance exercise
@en
P2093
David A Hood
Heather N Carter
P2860
P304
P356
10.1152/AJPCELL.00270.2013
P577
2013-11-27T00:00:00Z