Endurance exercise training attenuates leucine oxidation and BCOAD activation during exercise in humans. - Wikidata - awgldk - TriplyDB

Endurance exercise training attenuates leucine oxidation and BCOAD activation during exercise in humans.

Endurance exercise training attenuates leucine oxidation and BCOAD activation during exercise in humans.

http://www.wikidata.org/entity/Q55033781

about

Sex-specific differences in lipid and glucose metabolism Nutritional implications for ultra-endurance walking and running events Elevated mitochondrial oxidative stress impairs metabolic adaptations to exercise in skeletal muscle A mutation in the TMEM65 gene results in mitochondrial myopathy with severe neurological manifestations.Basal muscle intracellular amino acid kinetics in women and men.Parent-of-origin effects on voluntary exercise levels and body composition in mice.Women have higher protein content of beta-oxidation enzymes in skeletal muscle than men.The relationship between skeletal muscle mitochondrial citrate synthase activity and whole body oxygen uptake adaptations in response to exercise training.Redox state and mitochondrial respiratory chain function in skeletal muscle of LGMD2A patients.Sexual dimorphism in the effects of exercise on metabolism of lipids to support resting metabolism.Age and sex affect protein metabolism at protein intakes that span the range of adequacy: comparison of leucine kinetics and nitrogen balance data.Gender differences in skeletal muscle substrate metabolism - molecular mechanisms and insulin sensitivity.The effects of endurance training and thiamine supplementation on anti-fatigue during exercise.Dynamically regulated miRNA-mRNA networks revealed by exercise.Protein metabolism in women and men: similarities and disparities.Recommendations for Healthy Nutrition in Female Endurance Runners: An Update.Gender impacts the post-exercise substrate and endocrine response in trained runners.The Effect of Energy Patches on Substrate Utilization in Collegiate Cross-Country Runners History may be the Best Guide for Determining the Athlete's Dietary Protein Needs.Aerobic fitness does not modulate protein metabolism in response to increased exercise: a controlled trial Men supplemented with 17beta-estradiol have increased beta-oxidation capacity in skeletal muscle.Exercise, sex, menstrual cycle phase, and 17beta-estradiol influence metabolism-related genes in human skeletal muscle.Substrate utilization during endurance exercise in men and women after endurance training.Gender differences in leucine, but not lysine, kinetics.Gender differences in substrate utilization during submaximal exercise in endurance-trained subjects.Insulin increases branched-chain alpha-ketoacid dehydrogenase kinase expression in Clone 9 rat cells.Gender differences in the regulation of amino acid metabolism.Body-weight-support treadmill training improves blood glucose regulation in persons with incomplete spinal cord injury.No effect of menstrual cycle on myofibrillar and connective tissue protein synthesis in contracting skeletal muscle.No effect of menstrual cycle phase on glycerol or palmitate kinetics during 90 min of moderate exercise.Menstrual cycle phase and sex influence muscle glycogen utilization and glucose turnover during moderate-intensity endurance exercise.Exercise training increases branched-chain oxoacid dehydrogenase kinase content in human skeletal muscle.Beneficial Autophagic Activities, Mitochondrial Function, and Metabolic Phenotype Adaptations Promoted by High-Intensity Interval Training in a Rat Model.Protein and the Adaptive Response With Endurance Training: Wishful Thinking or a Competitive Edge?Superior Intrinsic Mitochondrial Respiration in Women Than in Men

P2860

Q26827350-AA721CA4-34D3-4D5F-AC8C-E21800A80C9E Q28076812-6E5948A4-97B6-4AA7-BB6A-7F5623A388CF Q28536393-C0B07075-A1BD-47CA-A864-DD0BD89549C8 Q29465776-DB89467A-7BAE-4B11-936C-971335D2C616 Q33584416-91ED25AD-6659-4755-A9A1-F90740147E05 Q33593454-C0E8B9B7-61A4-4D46-B171-60F2643903E8 Q33654084-D14F8F50-C641-4CF6-88FC-3B9B84BD8B01 Q33932625-8ED2495E-31F5-4458-84B0-24B4916FEC9C Q33981877-FDD4E7C7-1C5C-4A0F-89AF-DF48AB87E165 Q34299718-845179D3-50C2-4995-8B4C-B23DD54AB2E4 Q34355255-35889A47-D4F7-48F8-90C8-D7A758F10A95 Q34502214-6DBDC178-60E0-4354-B8BB-FA2378353895 Q34563352-1BB55E0D-26EA-4EE3-B810-4B3F5A9A0A40 Q35039224-C93858AE-A77D-44DF-924B-5C0D0907629A Q35223078-7C37454B-1857-40F4-A650-DFFFBCA60E60 Q35646401-1C70D1F9-B2E6-4A89-A62D-C460555E2231 Q36528362-71318A23-0D69-4521-985B-6E4787F6DC5E Q36537908-8772D62F-3DAE-4AD6-9DED-BA72F9B47DDB Q37080962-11DBF2F8-FCC2-4CE6-B8DB-56F7C07ABFC0 Q37253056-65134E58-0384-4195-BD71-169E6BADA02F Q43059600-FDA342D6-5F85-43AB-BEFD-2FCB0C7B8D04 Q43266184-DAE2B314-4B23-4EB7-86F8-532CC9B18F2B Q43606100-14630E73-98F0-4699-B6C5-A237A0768CB4 Q43641765-26CBFE0F-A3F9-443B-8B1C-D9454DE818CA Q43852621-E9A7DC2E-843A-4B52-908D-A9D1C091BEEC Q44129346-DA9F3885-32D5-4C6D-B7B8-3215A0001EA7 Q44478814-95F8FB57-2385-4676-BD9F-CD63338D5B95 Q44859072-190FCD75-846E-4ACD-B78F-AC482418B86F Q46677543-3B53E8B0-56D2-4337-A63C-D09C61BEE4ED Q46935234-CE7FE358-4499-4C1E-933B-7A7590765941 Q51805724-344EE959-4550-4CA9-9092-056BE8780C7A Q54081974-27223127-E8D7-4626-9ABD-8D146AB07467 Q55024401-832C04A3-B921-4252-BFE6-CDC375CC799E Q55403139-4EDEDA94-6369-404F-B3B5-7BBDB2B36883 Q58769077-E9C67A84-9412-4981-B9A3-C75D937968F4

P2860

Endurance exercise training attenuates leucine oxidation and BCOAD activation during exercise in humans.

http://www.wikidata.org/entity/Q55033781

description

2000 nî lūn-bûn

@nan

2000年の論文

@ja

2000年学术文章

@wuu

2000年学术文章

@zh

2000年学术文章

@zh-cn

2000年学术文章

@zh-hans

2000年学术文章

@zh-my

2000年学术文章

@zh-sg

2000年學術文章

@yue

2000年學術文章

@zh-hant

name

Endurance exercise training at ...... ion during exercise in humans.

@en

Endurance exercise training at ...... ion during exercise in humans.

@nl

type

label

Endurance exercise training at ...... ion during exercise in humans.

@en

Endurance exercise training at ...... ion during exercise in humans.

@nl

prefLabel

Endurance exercise training at ...... ion during exercise in humans.

@en

Endurance exercise training at ...... ion during exercise in humans.

@nl

P1433

Q55033781-DA49F43A-42A5-47F7-9EF6-3C6B2746EA12

P1476

Q55033781-EF07B0B0-7B35-4E6B-B73E-C26FBDFE5C76

P2093

Q55033781-6AFB806D-1430-4F1E-B4C8-DC490DC5CE24

Q55033781-7993B008-BE5B-4604-BF7D-5D8F11DD5BB1

Q55033781-7A93C79D-7F81-4C52-933D-E03C17D8FE9D

Q55033781-A654D55F-C460-43F8-8687-495DAC73115B

Q55033781-ACA4423B-1B4C-4295-BEF0-A8C108EE98D8

Q55033781-D965CAC1-7C17-4A90-848B-7B3FCF528BA3

P2860

Q55033781-06362894-8DE3-41D4-A2E6-55A98EE39CE5

Q55033781-13B401C9-CB28-4154-A6DC-843BB530D447

Q55033781-4CB09FD9-9FD3-4B97-A8FA-8EF2B1D32ADE

Q55033781-5BC9BDAD-99F7-4868-AAA9-DAEE5D3E3C08

Q55033781-79CB6F06-9AEA-4221-816D-B72E889F6876

Q55033781-7A005769-B08B-4B9F-AE16-73275339D623

Q55033781-7A34FADC-1FC4-4C6A-ABEA-2513DE7DCBE1

Q55033781-7ACEC70B-F846-47E2-9F69-073ABF4CC6F8

Q55033781-88DB864A-CB62-4677-8FDE-53A89733D269

Q55033781-9279623F-F8A5-4D83-B21B-E330400993F9

P304

Q55033781-1D3327AD-1121-44DF-960A-F11E6BD95399

P31

Q55033781-C88A2E4C-F667-45BE-8A2D-15BDA78C7FE2

P356

Q55033781-2555A51D-5034-4302-80C9-91A9E3248746

P433

Q55033781-15D2326C-101A-42E8-85D2-5E2801A04C7E

P478

Q55033781-4AF052A8-A26A-45F1-84CB-6515C4FDA5DA

P577

Q55033781-6D98B904-2BA4-495A-BC2E-452326D1E018

P698

Q55033781-A3905DC4-7D40-44E3-83DA-1A80EB665CFC

P356

AJPENDO.2000.278.4.E580

P1433

American Journal of Physiology - Endocrinology and Metabolism

P1476

Endurance exercise training at ...... ion during exercise in humans.

@en

P2093

M A Tarnopolsky

http://www.w3.org/2001/XMLSchema#string

M J Gibala

http://www.w3.org/2001/XMLSchema#string

S L Carter

http://www.w3.org/2001/XMLSchema#string

S Lowther

http://www.w3.org/2001/XMLSchema#string

S M Phillips

http://www.w3.org/2001/XMLSchema#string

S McKenzie

http://www.w3.org/2001/XMLSchema#string

P2860

Influence of protein intake and training status on nitrogen balance and lean body mass

Distribution of branched-chain alpha-keto acid dehydrogenases in primate tissues.

Carbohydrate supplementation, glycogen depletion, and amino acid metabolism during exercise.

Effect of exercise on rates of oxidation, turnover, and plasma clearance of leucine in human subjects.

Exercise-induced activation of the branched-chain 2-oxo acid dehydrogenase in human muscle.

Adaptation of protein metabolism to endurance training. Increased amino acid oxidation in response to training.

Gender differences in substrate for endurance exercise.

Kinetic characterization of branched chain ketoacid dehydrogenase.

Activation of branched-chain alpha-keto acid dehydrogenase complex by exercise: effect of high-fat diet intake.

Training-induced alterations of carbohydrate metabolism in women: women respond differently from men.

P304

E580-7

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1152/AJPENDO.2000.278.4.E580

http://www.w3.org/2001/XMLSchema#string

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

278

http://www.w3.org/2001/XMLSchema#string

P577

2000-04-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

10751189

http://www.w3.org/2001/XMLSchema#string