Changes in human muscle protein synthesis after resistance exercise.
about
ISSN exercise & sport nutrition review: research & recommendationsPea proteins oral supplementation promotes muscle thickness gains during resistance training: a double-blind, randomized, Placebo-controlled clinical trial vs. Whey protein.Effects of resistance training and protein supplementation on bone turnover in young adult womenLive strong and prosper: the importance of skeletal muscle strength for healthy ageingNutritional interventions to augment resistance training-induced skeletal muscle hypertrophyEffects of prostaglandins and COX-inhibiting drugs on skeletal muscle adaptations to exerciseInfluence of amino acids, dietary protein, and physical activity on muscle mass development in humansAge effect on myocellular remodeling: response to exercise and nutrition in humansIs there a need for protein ingestion during exercise?Nutritional and contractile regulation of human skeletal muscle protein synthesis and mTORC1 signalingTiming of postexercise protein intake is important for muscle hypertrophy with resistance training in elderly humansIs glucose/amino acid supplementation after exercise an aid to strength training?Whey protein isolate attenuates strength decline after eccentrically-induced muscle damage in healthy individualsResistance exercise maintains skeletal muscle protein synthesis during bed rest.Dietary protein considerations to support active agingHeat shock response and autophagy--cooperation and control.Pronounced effects of acute endurance exercise on gene expression in resting and exercising human skeletal muscle.Association between myosin heavy chain protein isoforms and intramuscular anabolic signaling following resistance exercise in trained men.Exercise, amino acids, and aging in the control of human muscle protein synthesis.Circulating protein synthesis rates reveal skeletal muscle proteome dynamics.Role of Ingested Amino Acids and Protein in the Promotion of Resistance Exercise-Induced Muscle Protein Anabolism.Cancer cachexia prevention via physical exercise: molecular mechanisms.Effects of training attendance on muscle strength of young men after 11 weeks of resistance training.The potential neural mechanisms of acute indirect vibration.The role of post-exercise nutrient administration on muscle protein synthesis and glycogen synthesis.The role of dietary protein intake and resistance training on Myosin heavy chain expression.Essential amino acid and carbohydrate ingestion before resistance exercise does not enhance postexercise muscle protein synthesis.Protein turnover, amino acid requirements and recommendations for athletes and active populations.Human muscle gene expression following resistance exercise and blood flow restriction.Skeletal muscle protein balance and metabolism in the elderlyTranslational signaling responses preceding resistance training-mediated myofiber hypertrophy in young and old humans.Synchronous deficits in cumulative muscle protein synthesis and ribosomal biogenesis underlie age-related anabolic resistance to exercise in humans.Skeletal muscle wasting with disuse atrophy is multi-dimensional: the response and interaction of myonuclei, satellite cells and signaling pathways.Acute resistance exercise activates rapamycin-sensitive and -insensitive mechanisms that control translational activity and capacity in skeletal muscle.Superior mitochondrial adaptations in human skeletal muscle after interval compared to continuous single-leg cycling matched for total work.Intensity of resistance exercise determines adipokine and resting energy expenditure responses in overweight elderly individuals.Effect of timing of protein and carbohydrate intake after resistance exercise on nitrogen balance in trained and untrained young men.Age-related differences in the dose-response relationship of muscle protein synthesis to resistance exercise in young and old men.Protein synthesis rates in human muscles: neither anatomical location nor fibre-type composition are major determinants.Acute dietary protein intake restriction is associated with changes in myostatin expression after a single bout of resistance exercise in healthy young men.
P2860
Q21245415-7404B392-EC38-4FDC-800E-298008A56D32Q22000624-F80FBB12-582F-41D2-9661-CEBC93EB6A8EQ24814112-87268FB8-E6AC-4F4C-AF66-B46EB8D19587Q26770637-81D1D40B-BB63-40FE-BCE1-A65E8D47414FQ26782957-FEB89D5A-FC2D-448D-980E-6704D86CD452Q26996419-E0CE5769-5E07-4C26-9A93-6D89E7DDC181Q27003307-9519791D-D7A6-40AC-9CBC-123E00D5817EQ27024546-5FBC87F3-2B24-459B-BB61-AD1551792F41Q27687204-B1753E50-BE60-4EB2-BB18-F4C021E5CA2FQ28307009-72610CEF-0BDB-430F-A0A9-8AB7C96FA91BQ28346120-BCA539A0-93ED-4285-9500-E9B82E05F9C0Q28361512-414914DC-EF7A-40B1-A219-8F4C992B6637Q34202671-FD056681-7AAF-427E-A5F0-8D2A5D1AEBF6Q34419921-64C6337F-3001-44F0-99D5-A36B9BDCA2FDQ34422593-C80459B9-7E5E-4BAF-9159-B895465E5CD5Q34464470-8A16C3AB-7B1C-49EA-86F8-0E02B0C9C2DCQ34506262-A1111BAE-63DF-4739-A9A3-96E947D9BF28Q35294194-AD0EBD50-D8FA-4902-859E-E1FB9A144423Q35787793-4263E0D0-E8C9-4EB4-A0AC-EE43C5CF4C44Q36430700-7AE6421B-BB90-4DA4-8DB6-96A3CFDBC9C9Q36498001-6153C38D-9B7B-4DBD-BBC2-451058365C13Q36934986-BD08EEF2-D38D-4684-ADA6-9EFC5A5C6455Q36949910-70312C80-C928-4204-8EDD-F07D01FC2BBDQ37081302-76BFC422-BD70-43CD-8D37-6D70BC60F2D3Q37143793-35E17675-6599-4884-A038-47D1B0F5CA47Q37172001-87A0D76D-3A5B-4489-966A-1074D95BBA35Q37190170-96AAA52E-3649-4A0E-8B33-5F856C6E2CB3Q37370849-572FBEE8-2D6F-41CB-B64D-E90CD500E2CEQ37383677-3EB22A11-F49F-4156-9A62-6F8DCC1BE8C0Q37395559-820A1062-868B-4F6B-A3E6-97E993722F4BQ37422140-308EA757-C821-46E6-B339-6BBAB0D41996Q37504914-859CC2E6-4B99-407E-BFB3-DDE879691A7EQ37640550-D492FCEC-439C-4F83-9DF7-C82AD805F0F7Q38821101-5C9828BA-B7CD-4EBB-96A8-B032F22722D9Q39617008-1657405C-0074-4F7F-ADBC-1FFA6B0DB0BAQ41864876-A73A3416-303A-4748-BE5D-5309CBDD472DQ41957802-543F914F-06D1-4C0C-BE84-2883DB34AB76Q42444632-72D3230F-8467-4026-ADCD-2403F05124A5Q42472104-96D20153-BF22-489A-91A2-E2239E7E17C7Q43477156-E4A79E78-896C-452E-8EBD-3F23250F5567
P2860
Changes in human muscle protein synthesis after resistance exercise.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh
1992年學術文章
@zh-hant
name
Changes in human muscle protein synthesis after resistance exercise.
@en
Changes in human muscle protein synthesis after resistance exercise.
@nl
type
label
Changes in human muscle protein synthesis after resistance exercise.
@en
Changes in human muscle protein synthesis after resistance exercise.
@nl
prefLabel
Changes in human muscle protein synthesis after resistance exercise.
@en
Changes in human muscle protein synthesis after resistance exercise.
@nl
P2093
P1476
Changes in human muscle protein synthesis after resistance exercise.
@en
P2093
J D MacDougall
M A Tarnopolsky
S A Atkinson
P304
P356
10.1152/JAPPL.1992.73.4.1383
P407
P577
1992-10-01T00:00:00Z