Endurance training-induced changes in insulin sensitivity and gene expression.
about
Modulation of extracellular matrix genes reflects the magnitude of physiological adaptation to aerobic exercise training in humansTitin, a Central Mediator for Hypertrophic Signaling, Exercise-Induced Mechanosignaling and Skeletal Muscle RemodelingADP-ribosyl cyclase and ryanodine receptors mediate endothelin ETA and ETB receptor-induced renal vasoconstriction in vivoExercise training and dietary glycemic load may have synergistic effects on insulin resistance in older obese adults.Role of exercise in maintaining the integrity of the neuromuscular junction.Power training and postmenopausal hormone therapy affect transcriptional control of specific co-regulated gene clusters in skeletal muscle.Reduction in inflammatory gene expression in skeletal muscle from Roux-en-Y gastric bypass patients randomized to omentectomyGenetic modulation of lipid profiles following lifestyle modification or metformin treatment: the Diabetes Prevention ProgramEffects of streptozotocin-induced diabetes and physical training on gene expression of titin-based stretch-sensing complexes in mouse striated muscle.Variability in training-induced skeletal muscle adaptation.Overcoming barriers to progress in exercise genomics.On marathons and Sprints: an integrated quantitative proteomics and transcriptomics analysis of differences between slow and fast muscle fibersContribution of Heritability and Epigenetic Factors to Skeletal Muscle Mass Variation in United Kingdom Twins.Characterization of the human skeletal muscle proteome by one-dimensional gel electrophoresis and HPLC-ESI-MS/MS.Global relationship between the proteome and transcriptome of human skeletal muscle.Genomics and genetics in the biology of adaptation to exercise.Molecular genetic studies of gene identification for sarcopenia.Recent progress on type II diacylglycerol kinases: the physiological functions of diacylglycerol kinase δ, η and κ and their involvement in disease.Expression of genes involved in fatty acid transport and insulin signaling is altered by physical inactivity and exercise training in human skeletal muscle.Profound hyperglycemia in knockout mutant mice identifies novel function for POU4F2/Brn-3b in regulating metabolic processes.Perspective on the future use of genomics in exercise prescription.Myotubes from lean and severely obese subjects with and without type 2 diabetes respond differently to an in vitro model of exercise.Aerobic training in rats increases skeletal muscle sphingomyelinase and serine palmitoyltransferase activity, while decreasing ceramidase activity.Superoxide mediates acute renal vasoconstriction produced by angiotensin II and catecholamines by a mechanism independent of nitric oxide.Reactive oxygen species participate in acute renal vasoconstrictor responses induced by ETA and ETB receptors.Cigarette smoke exposure severely reduces peripheral insulin sensitivity without changing GLUT4 expression in oxidative muscle of Wistar rats.Improvement of renal hemodynamics during hypertension-induced chronic renal disease: role of EGF receptor antagonism.The identification of genetic pathways involved in vascular adaptations after physical deconditioning versus exercise training in humans.Activation of ETB receptors increases superoxide levels in sympathetic ganglia in vivo.The Role of Eif6 in Skeletal Muscle Homeostasis Revealed by Endurance Training Co-expression Networks.Intrauterine Growth Restricted Rats Exercised at Pregnancy: Maternal-Fetal Repercussions.The training stimulus experienced by the leg muscles during cycling in humans.Beneficial effects of exercise training (treadmill) on insulin resistance and nonalcoholic fatty liver disease in high-fat fed C57BL/6 mice.Chronic administration of myristic acid improves hyperglycaemia in the Nagoya-Shibata-Yasuda mouse model of congenital type 2 diabetes.Body Fat and Mobility Are Explained by Common Genetic and Environmental Influences in Older Women
P2860
Q24815394-930F6A37-8706-49C0-886A-AF098048B121Q26765973-12D3B83A-1F0E-45AA-958B-6BA65D8CC0EEQ28581548-B6ADA1CD-1A4A-4FBD-8DA1-B4002242BAD1Q33785143-A7B75BFB-AD05-44C6-A3E6-278153AE9839Q33862222-59E39D5F-693D-4402-9E03-C4CCC67213B4Q34080414-C0ECDE59-3325-459A-AEE8-9A9B1B47953CQ34110159-B23827D9-48A9-4BF9-B78D-5BBFA08F8FA6Q34404405-88C2014F-DEEC-4262-BE6D-82FF91F008D6Q34569151-E4A9B101-F4AC-4062-A8F5-90FF6093491FQ34753853-11CE6985-9105-4BF1-BADD-61010C15DAB1Q35243796-945A1D68-1320-4C03-AD4A-1C6535272FEBQ36209099-6ACC70A7-CA9D-4A4B-94AB-CD41ECBBD2EDQ36965295-1BA5E9A9-9134-43CC-B0FD-BD2745F30B20Q37332538-464CF6A7-22F2-465B-A8C2-9012F7A3193BQ37371168-EF5E25B1-F2AC-4392-A698-A9CFBD65E946Q37609488-B219C942-CDAF-495A-9298-46DB5FED7BAFQ37894597-AD6996A1-ED1A-4399-A054-6CC5B10C17FAQ38043979-D69AEFB1-F377-49DE-9B48-C7357F7F3DDEQ38321427-E554C999-E586-4961-9E68-32FECC3CA4F2Q38709913-320D8D45-F800-492E-B2B0-013B3494DA6EQ40148449-EFE19373-88E2-478E-9F2B-5F3DAC5E30BEQ41548294-3B94FD08-531D-4AC6-9292-9EC268A55FF8Q41808679-ACD78E27-C772-4F15-965F-8BD4A0EEA534Q42500843-F86626DD-77B8-4BD0-8335-24023936460AQ42524471-5477EC0E-D087-47E5-B626-EE9BDE6FD825Q44591381-9A56B699-B724-481C-934B-A645B23CD724Q46023332-57E5A03F-9383-4C4D-92F8-AF3529457DC4Q46032813-E56DAEF3-E91E-471E-B849-4B3F7333896CQ46716717-EAC5BA21-75C2-4156-90D1-3B30F7EC4393Q47118511-4F7947F7-F399-4177-A9B5-B0E713B1DA02Q51046224-5A4F0B09-FCA8-49D5-A9A9-20F431BE0543Q51820455-3A5CD683-BB04-4CD8-ADE1-72E0B40EC2D4Q53322895-39FC1CF2-D5AF-42EF-8E71-DA9CD0D57145Q54997703-D5C88835-243A-4A22-8B91-76FFFF6A75B0Q57256629-E3C17B18-8DDA-4089-A198-3C3298BAC41B
P2860
Endurance training-induced changes in insulin sensitivity and gene expression.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Endurance training-induced changes in insulin sensitivity and gene expression.
@en
Endurance training-induced changes in insulin sensitivity and gene expression.
@nl
type
label
Endurance training-induced changes in insulin sensitivity and gene expression.
@en
Endurance training-induced changes in insulin sensitivity and gene expression.
@nl
prefLabel
Endurance training-induced changes in insulin sensitivity and gene expression.
@en
Endurance training-induced changes in insulin sensitivity and gene expression.
@nl
P2093
P2860
P1476
Endurance training-induced changes in insulin sensitivity and gene expression.
@en
P2093
Margarita Teran-Garcia
Robert A Koza
P2860
P304
P356
10.1152/AJPENDO.00467.2004
P577
2005-02-01T00:00:00Z