about
The effects of testosterone deprivation and supplementation on proteasomal and autophagy activity in the skeletal muscle of the male mouse: differential effects on high-androgen responder and low-androgen responder muscle groupsThe temporal responses of protein synthesis, gene expression and cell signalling in human quadriceps muscle and patellar tendon to disuseSpecialized Functional Diversity and Interactions of the Na,K-ATPaseIn Vivo Rodent Models of Skeletal Muscle Adaptation to Decreased UseMechanical Signaling in the Pathophysiology of Critical Illness MyopathyTime-dependent changes in expression of troponin subunit isoforms in unloaded rat soleus muscleMaintenance of muscle mass is not dependent on the calcineurin-NFAT pathwaySkeletal muscle IGF-binding protein-3 and -5 expressions are age, muscle, and load dependentAging impairs the expression of the catalytic subunit of glutamate cysteine ligase in soleus muscle under stressRegression of capillary network in atrophied soleus muscle induced by hindlimb unweighting.Expression and functional behavior of troponin C in soleus muscle fibers of rat after hindlimb unloading.Muscle LIM protein is upregulated in fast skeletal muscle during transition toward slower phenotypes.Carbonic anhydrase III and four-and-a-half LIM protein 1 are preferentially oxidized with muscle unloading.Activation of the dopamine 1 and dopamine 5 receptors increase skeletal muscle mass and force production under non-atrophying and atrophying conditionsPlasticity of monkey triceps muscle fibers in microgravity conditions.Impact of viral-mediated IGF-I gene transfer on skeletal muscle following cast immobilizationThe impact of muscle disuse on muscle atrophy in severely burned ratsVelocity, force, power, and Ca2+ sensitivity of fast and slow monkey skeletal muscle fibers.Aging affects the transcriptional regulation of human skeletal muscle disuse atrophy.Lack of exercise is a major cause of chronic diseases.Macrophages promote muscle membrane repair and muscle fibre growth and regeneration during modified muscle loading in mice in vivo.Effects of intermittent weight-bearing and clenbuterol on disuse atrophy of rat hindlimb muscles.A dietary supplementation with leucine and antioxidants is capable to accelerate muscle mass recovery after immobilization in adult ratsTranslational signalling, atrogenic and myogenic gene expression during unloading and reloading of skeletal muscle in myostatin-deficient mice.Use it or lose it: multiscale skeletal muscle adaptation to mechanical stimuli.Can endurance exercise preconditioning prevention disuse muscle atrophy?Id-1 as a possible transcriptional mediator of muscle disuse atrophy.Improved fatigue resistance in Gsα-deficient and aging mouse skeletal muscles due to adaptive increases in slow fibers.The combined effect of electrical stimulation and high-load isometric contraction on protein degradation pathways in muscle atrophy induced by hindlimb unloading.An alternant method to the traditional NASA hindlimb unloading model in mice.Compensatory responses of the insulin signaling pathway restore muscle glucose uptake following long-term denervationMorphology and Molecular Mechanisms of Hepatic Injury in Rats under Simulated Weightlessness and the Protective Effects of Resistance Training.High Intensity Interval Training (HIIT) Induces Specific Changes in Respiration and Electron Leakage in the Mitochondria of Different Rat Skeletal Muscles.Prevention of unloading-induced atrophy by vitamin E supplementation: links between oxidative stress and soleus muscle proteolysis?Satellite cell senescence underlies myopathy in a mouse model of limb-girdle muscular dystrophy 2H.Effects of exercise on soleus in severe burn and muscle disuse atrophy.Loss of myostatin (GDF8) function increases osteogenic differentiation of bone marrow-derived mesenchymal stem cells but the osteogenic effect is ablated with unloading.PGC-1α overexpression by in vivo transfection attenuates mitochondrial deterioration of skeletal muscle caused by immobilization.The response of apoptotic and proteolytic systems to repeated heat stress in atrophied rat skeletal muscle.IL-10 triggers changes in macrophage phenotype that promote muscle growth and regeneration.
P2860
Q24596896-B2D8A960-6E51-4776-817F-BD53D1FE99B2Q24642532-CAABBDB6-C21A-47DA-BB02-1FD60EEDCEDCQ26744084-EF7DBFEA-4C46-413D-90B7-1F46CEB20A70Q26753187-D6383DE4-FFDB-4E53-9C11-087C2C86DB43Q26766473-520D7BFB-2DA6-404D-8C14-A039B29228F0Q28213658-ECB6E85E-7F0A-4568-BA5F-ADED7C8A5BFDQ28568904-066C3079-1C64-4A65-B9EE-EEE624655A11Q28579347-7060B7A7-FE14-43B6-A2CA-D6499C05FCBDQ28582144-82E05364-9C58-46E5-8C81-E43878029CB7Q31135366-9E58E72A-70C4-4789-B32A-41745A0BC4A8Q31959606-BDBC8B38-10FB-4A24-8782-C4DC52AFDA1EQ32030738-ACF12FFD-1BE2-4E24-94C6-15CFAE6EE45EQ33364690-E2DC7318-F17B-48B1-9F6C-7FDB6AEECD5CQ33804521-D7CF69B0-EAAD-4439-868F-CC0AEBE17D51Q33942229-FCD3D98E-B8A0-40F0-AA3D-29F0A1FB9E0FQ34305212-DB0432EA-7DBF-49C1-BA38-71642D9EBC7EQ34349306-021AF472-3ED8-4395-9EED-01D4E23A30A4Q34466716-12D39B41-69B4-4758-AAEC-048E15D34DA4Q34531711-D49680FA-FA53-4BC0-96F9-32C9837D9FFCQ34560916-94BCFD48-004F-421A-9C29-D92572797E9EQ34573648-7CBA7A62-47E8-4BF3-B4C7-79456581144AQ35047104-B2BC756A-0DBB-418E-A25A-8994569D7DFCQ35060561-441A2CAA-5A36-43F6-BC46-F75D403F444EQ35144174-CE9D5A26-4C76-4EB6-90A2-96B4462E1D1AQ35155008-F2FB1226-AB8E-4BF8-A84A-5FCE9F061CE5Q35167280-4E0D11FE-BCAB-4024-9927-947E691914E2Q35188733-54C14308-6B89-4DCB-8F34-71371F0003AFQ35217586-721030F0-294B-407E-B476-184656CCA855Q35303095-F4F1AD80-6BB6-4084-9A12-2BEC05C111EDQ35394625-946F858C-90F4-42BB-9C0F-7231DF43CF45Q35588639-D31AD6CA-BC8B-4544-8319-A7FA09C9938EQ35639371-B4C62EEA-F4AA-4922-85B1-1C1E383F2EE1Q35677125-910D2647-5B98-497E-B36A-437E133F8ACEQ35878780-9EFC29A6-B0DA-4ECF-AE1F-6D3EE0917F19Q35913673-43212347-10E9-480F-8BA3-9AD924C9A36FQ35972877-5C3D93A5-84A4-471A-B811-37482334082CQ36028610-71198E14-0C91-4707-A9F2-A4BEDF150B20Q36051507-B04E15B5-4A1A-43A1-BF9C-F1B6AC4D3809Q36247996-4A80BEC9-308B-4DC5-9719-85D05CE391E6Q36252477-844A0612-8CAC-4D7F-80FD-D1A3D100604C
P2860
description
1990 nî lūn-bûn
@nan
1990 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
Atrophy of the soleus muscle by hindlimb unweighting.
@ast
Atrophy of the soleus muscle by hindlimb unweighting.
@en
Atrophy of the soleus muscle by hindlimb unweighting.
@nl
type
label
Atrophy of the soleus muscle by hindlimb unweighting.
@ast
Atrophy of the soleus muscle by hindlimb unweighting.
@en
Atrophy of the soleus muscle by hindlimb unweighting.
@nl
prefLabel
Atrophy of the soleus muscle by hindlimb unweighting.
@ast
Atrophy of the soleus muscle by hindlimb unweighting.
@en
Atrophy of the soleus muscle by hindlimb unweighting.
@nl
P1476
Atrophy of the soleus muscle by hindlimb unweighting.
@en
P2093
D B Thomason
P356
10.1152/JAPPL.1990.68.1.1
P407
P577
1990-01-01T00:00:00Z