about
Muscle satellite cell heterogeneity and self-renewalEstimating cell depth from somatic mutationsWhat does the concept of the stem cell niche really mean today?Early transplantation of human immature dental pulp stem cells from baby teeth to golden retriever muscular dystrophy (GRMD) dogs: Local or systemic?The production of fluorescent transgenic trout to study in vitro myogenic cell differentiationHuman muscle satellite cells as targets of Chikungunya virus infectionSox15 and Fhl3 transcriptionally coactivate Foxk1 and regulate myogenic progenitor cellsThe IGF-I splice variant MGF increases progenitor cells in ALS, dystrophic, and normal muscleEffects of proteolytic enzymes on function and structure of frog neuromuscular junctionsMolecular and cell-based therapies for muscle degenerations: a road under constructionSkeletal muscle neural progenitor cells exhibit properties of NG2-gliaShort-term calorie restriction enhances skeletal muscle stem cell functionRole of pericytes in skeletal muscle regeneration and fat accumulationCreatine supplementation augments the increase in satellite cell and myonuclei number in human skeletal muscle induced by strength trainingSalamander limb regeneration involves the activation of a multipotent skeletal muscle satellite cell population.Skeletal muscle stem cellsRecent advances in innovative therapeutic approaches for Duchenne muscular dystrophy: from discovery to clinical trialsThe emerging role of viral vectors as vehicles for DMD gene editingMuscle Satellite Cells: Exploring the Basic Biology to Rule ThemPotential Role of Omega-3 Fatty Acids on the Myogenic Program of Satellite CellsEpigenetic Reprogramming of Muscle Progenitors: Inspiration for Clinical TherapiesWhen stem cells grow old: phenotypes and mechanisms of stem cell agingSatellite cells in human skeletal muscle plasticityRole of Inflammation in Muscle Homeostasis and MyogenesisA muscle stem cell for every muscle: variability of satellite cell biology among different muscle groupsIntracellular Ca(2+)-handling differs markedly between intact human muscle fibers and myotubesMuscle wasting in myotonic dystrophies: a model of premature agingPotential of adipose-derived stem cells in muscular regenerative therapiesNew insights into the epigenetic control of satellite cellsThe central role of muscle stem cells in regenerative failure with agingAdult Stem Cell Responses to NanostimuliMeat Science and Muscle Biology Symposium: stem cell niche and postnatal muscle growthOptimizing IGF-I for skeletal muscle therapeuticsTissue-specific stem cells: lessons from the skeletal muscle satellite cellDo fat supplements increase physical performance?Regulation of satellite cell function in sarcopeniaThe germline stem cell niche unit in mammalian testesStem cells for skeletal muscle regeneration: therapeutic potential and roadblocksBiomaterial-based delivery for skeletal muscle repairPathophysiology of muscle contractures in cerebral palsy
P2860
Q21131319-A46C5655-7ABC-4939-9FCA-4A705D20E8B0Q21145377-8C28D03D-4D1B-4170-825B-50FE7E7E9C4EQ21245383-02E1A4B5-52DE-425F-ACA3-D8F719CC774AQ21245473-9148CA13-E766-4BA3-8743-BC1AD967420FQ21256677-75CEF316-8A5D-41A6-B416-C800C4BE6660Q21562321-E6191F5F-7AAD-4B14-A2E2-255A9D63AD08Q24300409-B711128E-39EC-4F52-ADEA-430135125AC6Q24307354-2866326C-CCBC-40B4-97F3-32A60807EFE0Q24538974-FD9654FC-E349-4C75-829E-AF8ED3396268Q24568176-45595FD8-45A6-48B5-ACE4-52A124BD7AE7Q24605222-8F1375D7-AECF-40F5-96E9-277A48DC7FC8Q24628734-9C2BA032-158B-4CB0-A7E6-18685396D65AQ24634546-FCD31E0E-E8F8-4BC9-B8E4-B73AE10911DAQ24683908-A3DD89FB-CDC8-4A79-98C5-9DDEA81228C3Q24684026-E07BDEDB-D128-430D-BF74-179EF41B4633Q24801042-14435384-E5A6-4425-857C-C2151887F285Q26741409-6B494452-3B31-4A96-A157-0DD58A257EBEQ26746647-9A4C1C9D-BFDB-4610-9CC8-2E8799BECA87Q26752770-4DEB8FEA-A350-4422-A228-C2F483E00EEEQ26765367-32AE9761-F30D-4ED4-BB2A-AC5384535928Q26770102-6AD3CC94-F4D6-40B5-B387-BE7D5C4A6A0CQ26770845-FF8E84BD-AB57-4D98-AE39-47FEBE693562Q26777962-5AB6DBD0-74DD-44E9-BB48-56E7A9145DA4Q26778322-3132E486-963A-4F87-AF72-11F4787D0225Q26779289-C8C0F27B-ECD5-491C-953A-B2228D14D44EQ26795395-408C3631-D8D1-4F5A-A2A0-36FC1F74C35FQ26798784-CA160FF4-D40E-439F-8014-F4FEC3CB2725Q26798810-1987F031-32FF-43FF-93B2-2D8479762546Q26799278-A10A4744-2EE0-41F7-B2D5-464B8A3BB07AQ26801427-73D2E3E8-5B57-4DCB-B1C6-8D9EF91B81F7Q26801738-1DE0698E-0719-482A-98C2-02D676B0AEA4Q26824418-18672F03-CB39-4CEB-BCBD-B46636B5A595Q26825444-0AC2D19C-AF2B-4FEE-81B9-CF26EABC3D0AQ26825719-5C955F2B-95D6-4B27-AE7F-730DD88BB9C2Q26825805-A5E79E43-80C6-495C-8280-85C85EB23F8FQ26826890-A2CBD360-9AD3-4375-9AFA-81296FC9ABEDQ26827188-3DB819BB-A5C9-404A-8E3F-7F2AB5E7EF45Q26828390-5AEC490B-DAC0-4A46-B474-F6713924CA14Q26863489-AD5EBEFC-2C0B-46D1-8D90-44A381307C91Q26865007-17619C81-CD2B-4180-9FF1-43A2796161D1
P2860
description
1961 nî lūn-bûn
@nan
1961 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1961 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1961年の論文
@ja
1961年論文
@yue
1961年論文
@zh-hant
1961年論文
@zh-hk
1961年論文
@zh-mo
1961年論文
@zh-tw
1961年论文
@wuu
name
Satellite cell of skeletal muscle fibers
@ast
Satellite cell of skeletal muscle fibers
@en
type
label
Satellite cell of skeletal muscle fibers
@ast
Satellite cell of skeletal muscle fibers
@en
prefLabel
Satellite cell of skeletal muscle fibers
@ast
Satellite cell of skeletal muscle fibers
@en
P3181
P356
P1476
Satellite cell of skeletal muscle fibers
@en
P2093
P3181
P356
10.1083/JCB.9.2.493
P407
P577
1961-02-01T00:00:00Z