| Published Application/Species/Sample/Dilution | Reference |
|---|
- immunohistochemistry knockout validation; mouse; 1:50; loading ...; fig 3a
- immunohistochemistry - frozen section; mouse; 1:50; loading ...; fig 3a
| Chen X, Yuan J, Xue G, Campanario S, Wang D, Wang W, et al. Translational control by DHX36 binding to 5'UTR G-quadruplex is essential for muscle stem-cell regenerative functions. Nat Commun. 2021;12:5043 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; loading ...; fig s3a
| Kurosaka M, Ogura Y, Sato S, Kohda K, Funabashi T. Transcription factor signal transducer and activator of transcription 6 (STAT6) is an inhibitory factor for adult myogenesis. Skelet Muscle. 2021;11:14 pubmed publisher |
- immunocytochemistry; mouse; loading ...; fig 1g
| Zhou S, Zhang W, Cai G, Ding Y, Wei C, Li S, et al. Myofiber necroptosis promotes muscle stem cell proliferation via releasing Tenascin-C during regeneration. Cell Res. 2020;30:1063-1077 pubmed publisher |
- immunocytochemistry; human; 1:10; loading ...; fig 2b
| Barruet E, Garcia S, Striedinger K, Wu J, Lee S, Byrnes L, et al. Functionally heterogeneous human satellite cells identified by single cell RNA sequencing. elife. 2020;9: pubmed publisher |
- immunocytochemistry; human; 1:1000; loading ...; fig 1b
| Choi I, Lim H, Cho H, Oh Y, Chou B, Bai H, et al. Transcriptional landscape of myogenesis from human pluripotent stem cells reveals a key role of TWIST1 in maintenance of skeletal muscle progenitors. elife. 2020;9: pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; loading ...; fig s4a
| de Morrée A, Klein J, Gan Q, Farup J, Urtasun A, Kanugovi A, et al. Alternative polyadenylation of Pax3 controls muscle stem cell fate and muscle function. Science. 2019;366:734-738 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; loading ...; fig 4e
| Jia Z, Nie Y, Yue F, Kong Y, Gu L, Gavin T, et al. A requirement of Polo-like kinase 1 in murine embryonic myogenesis and adult muscle regeneration. elife. 2019;8: pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; loading ...; fig s11c
| Soldatov R, Kaucka M, Kastriti M, Petersen J, Chontorotzea T, Englmaier L, et al. Spatiotemporal structure of cell fate decisions in murine neural crest. Science. 2019;364: pubmed publisher |
- immunohistochemistry - frozen section; degu; 1:1000; loading ...; fig 11
| Deichler A, Carrasco D, González Cabrera C, Letelier J, Mar n G, Mpodozis J. The nucleus pretectalis principalis: A pretectal structure hidden in the mammalian thalamus. J Comp Neurol. 2019;527:372-391 pubmed publisher |
- immunocytochemistry; mouse; 1:40; loading ...; fig 2f
| Baghdadi M, Firmino J, Soni K, Evano B, Di Girolamo D, Mourikis P, et al. Notch-Induced miR-708 Antagonizes Satellite Cell Migration and Maintains Quiescence. Cell Stem Cell. 2018;23:859-868.e5 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:5-1:10; loading ...; fig 5a
| Gallot Y, Straughn A, Bohnert K, Xiong G, Hindi S, Kumar A. MyD88 is required for satellite cell-mediated myofiber regeneration in dystrophin-deficient mdx mice. Hum Mol Genet. 2018;27:3449-3463 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:20; loading ...; fig 1c
| Alonso Martin S, Aurade F, Mademtzoglou D, Rochat A, Zammit P, Relaix F. SOXF factors regulate murine satellite cell self-renewal and function through inhibition of β-catenin activity. elife. 2018;7: pubmed publisher |
- western blot; mouse; loading ...; fig 1b
| de Morrée A, van Velthoven C, Gan Q, Salvi J, Klein J, Akimenko I, et al. Staufen1 inhibits MyoD translation to actively maintain muscle stem cell quiescence. Proc Natl Acad Sci U S A. 2017;114:E8996-E9005 pubmed publisher |
- immunohistochemistry - paraffin section; mouse; loading ...; fig 4c
| Zhu X, Yuan X, Wang M, Fang Y, Liu Y, Zhang X, et al. A Wnt/Notch/Pax7 signaling network supports tissue integrity in tongue development. J Biol Chem. 2017;292:9409-9419 pubmed publisher |
- immunohistochemistry - frozen section; human; loading ...; fig 1
| Mackey A, Magnan M, Chazaud B, Kjaer M. Human skeletal muscle fibroblasts stimulate in vitro myogenesis and in vivo muscle regeneration. J Physiol. 2017;595:5115-5127 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; loading ...; fig 4a
| Xiong G, Hindi S, Mann A, Gallot Y, Bohnert K, Cavener D, et al. The PERK arm of the unfolded protein response regulates satellite cell-mediated skeletal muscle regeneration. elife. 2017;6: pubmed publisher |
- immunohistochemistry - frozen section; mouse; loading ...; fig 12B
| Shen C, Zhou J, Wang X, Yu X, Liang C, Liu B, et al. Angiotensin-II-induced Muscle Wasting is Mediated by 25-Hydroxycholesterol via GSK3? Signaling Pathway. EBioMedicine. 2017;16:238-250 pubmed publisher |
- immunohistochemistry; mouse; loading ...; fig 2A
- western blot; mouse; loading ...; fig 4B; 5D
| Nie Y, Chen H, Guo C, Yuan Z, Zhou X, Zhang Y, et al. Palmdelphin promotes myoblast differentiation and muscle regeneration. Sci Rep. 2017;7:41608 pubmed publisher |
- immunocytochemistry; mouse; 1:10; fig 1a
- western blot; mouse; 1:50; fig 1c
| Yue F, Bi P, Wang C, Shan T, Nie Y, Ratliff T, et al. Pten is necessary for the quiescence and maintenance of adult muscle stem cells. Nat Commun. 2017;8:14328 pubmed publisher |
- immunocytochemistry; mouse; loading ...; fig 1c
| Lala Tabbert N, AlSudais H, Marchildon F, Fu D, Wiper Bergeron N. CCAAT/enhancer binding protein β is required for satellite cell self-renewal. Skelet Muscle. 2016;6:40 pubmed |
- immunohistochemistry; human; 1:100; loading ...; fig 2b
| McKenzie A, D Lugos A, Saunders M, Gworek K, Luden N. Fiber Type-Specific Satellite Cell Content in Cyclists Following Heavy Training with Carbohydrate and Carbohydrate-Protein Supplementation. Front Physiol. 2016;7:550 pubmed |
- immunohistochemistry; mouse
| Ross J, Pearson A, Levy Y, Cardel B, Handschin C, Ochala J. Exploring the Role of PGC-1? in Defining Nuclear Organisation in Skeletal Muscle Fibres. J Cell Physiol. 2017;232:1270-1274 pubmed publisher |
- immunohistochemistry; mouse; 1:20-1:100; fig 3a
| Knopp P, Krom Y, Banerji C, Panamarova M, Moyle L, den Hamer B, et al. DUX4 induces a transcriptome more characteristic of a less-differentiated cell state and inhibits myogenesis. J Cell Sci. 2016;129:3816-3831 pubmed |
- immunohistochemistry; mouse; fig 2
| Southard S, Kim J, Low S, Tsika R, Lepper C. Myofiber-specific TEAD1 overexpression drives satellite cell hyperplasia and counters pathological effects of dystrophin deficiency. elife. 2016;5: pubmed publisher |
- immunohistochemistry; human; 1:100; loading ...
| Murach K, Walton R, Fry C, Michaelis S, Groshong J, Finlin B, et al. Cycle training modulates satellite cell and transcriptional responses to a bout of resistance exercise. Physiol Rep. 2016;4: pubmed publisher |
- immunohistochemistry; mouse; 1:25; loading ...; fig 2e
| Xie X, Tsai S, Tsai M. COUP-TFII regulates satellite cell function and muscular dystrophy. J Clin Invest. 2016;126:3929-3941 pubmed publisher |
- immunohistochemistry - free floating section; Xenopus laevis; 1:500; loading ...; tbl 2
| Morona R, Ferran J, Puelles L, González A. Gene expression analysis of developing cell groups in the pretectal region of Xenopus laevis. J Comp Neurol. 2017;525:715-752 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:5; loading ...; fig 1a
| Egner I, Bruusgaard J, Gundersen K. Satellite cell depletion prevents fiber hypertrophy in skeletal muscle. Development. 2016;143:2898-906 pubmed publisher |
- immunocytochemistry; mouse; 1:20; loading ...; fig s1b
- immunohistochemistry; mouse; 1:20; loading ...; fig s9b
| Rozo M, Li L, Fan C. Targeting ?1-integrin signaling enhances regeneration in aged and dystrophic muscle in mice. Nat Med. 2016;22:889-96 pubmed publisher |
- western blot; rat; 1:500; fig 1
| Puchert M, Adams V, Linke A, Engele J. Evidence for the involvement of the CXCL12 system in the adaptation of skeletal muscles to physical exercise. Cell Signal. 2016;28:1205-15 pubmed publisher |
- immunohistochemistry; mouse; 1:100; fig 2
| Yao Y, Norris E, Mason C, Strickland S. Laminin regulates PDGFR?(+) cell stemness and muscle development. Nat Commun. 2016;7:11415 pubmed publisher |
- immunocytochemistry; human; 1:250; fig s1
| Xue Y, Qian H, Hu J, Zhou B, Zhou Y, Hu X, et al. Sequential regulatory loops as key gatekeepers for neuronal reprogramming in human cells. Nat Neurosci. 2016;19:807-15 pubmed publisher |
- immunohistochemistry - frozen section; Japanese common newt; 1:200; loading ...; fig 1g
| Tanaka H, Ng N, Yang Yu Z, Casco Robles M, Maruo F, Tsonis P, et al. A developmentally regulated switch from stem cells to dedifferentiation for limb muscle regeneration in newts. Nat Commun. 2016;7:11069 pubmed publisher |
- immunocytochemistry; mouse; fig s11
| Park S, Yun Y, Lim J, Kim M, Kim S, Kim J, et al. Stabilin-2 modulates the efficiency of myoblast fusion during myogenic differentiation and muscle regeneration. Nat Commun. 2016;7:10871 pubmed publisher |
- western blot; human; 1:500; fig 4
| Farini A, Sitzia C, Cassinelli L, Colleoni F, Parolini D, Giovanella U, et al. Inositol 1,4,5-trisphosphate (IP3)-dependent Ca2+ signaling mediates delayed myogenesis in Duchenne muscular dystrophy fetal muscle. Development. 2016;143:658-69 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10; fig 3
- immunocytochemistry; mouse; 1:10; fig 5
- western blot; mouse; 1:1000; fig 5
| Ogura Y, Hindi S, Sato S, Xiong G, Akira S, Kumar A. TAK1 modulates satellite stem cell homeostasis and skeletal muscle repair. Nat Commun. 2015;6:10123 pubmed publisher |
- immunohistochemistry; human; 1:50; fig 1
| Hoeber J, Trolle C, König N, Du Z, Gallo A, Hermans E, et al. Human Embryonic Stem Cell-Derived Progenitors Assist Functional Sensory Axon Regeneration after Dorsal Root Avulsion Injury. Sci Rep. 2015;5:10666 pubmed publisher |
- immunohistochemistry; chicken; 1:20; fig s3i
| Schock E, Chang C, Struve J, Chang Y, Chang J, Delany M, et al. Using the avian mutant talpid2 as a disease model for understanding the oral-facial phenotypes of oral-facial-digital syndrome. Dis Model Mech. 2015;8:855-66 pubmed publisher |
- immunohistochemistry; zebrafish ; 1:100; fig 3
| Solchenberger B, Russell C, Kremmer E, Haass C, Schmid B. Granulin knock out zebrafish lack frontotemporal lobar degeneration and neuronal ceroid lipofuscinosis pathology. PLoS ONE. 2015;10:e0118956 pubmed publisher |
- immunohistochemistry; mouse; 1:50
| Feeney S, McGrath M, Sriratana A, Gehrig S, Lynch G, D Arcy C, et al. FHL1 reduces dystrophy in transgenic mice overexpressing FSHD muscular dystrophy region gene 1 (FRG1). PLoS ONE. 2015;10:e0117665 pubmed publisher |
- immunohistochemistry - frozen section; mouse
| Labarge S, McDonald M, Smith Powell L, Auwerx J, Huss J. Estrogen-related receptor-? (ERR?) deficiency in skeletal muscle impairs regeneration in response to injury. FASEB J. 2014;28:1082-97 pubmed publisher |
- immunohistochemistry - free floating section; Spanish newt; 1:500
| Joven A, Morona R, González A, Moreno N. Spatiotemporal patterns of Pax3, Pax6, and Pax7 expression in the developing brain of a urodele amphibian, Pleurodeles waltl. J Comp Neurol. 2013;521:3913-53 pubmed publisher |
- immunohistochemistry; rat
| Przewoźniak M, Czaplicka I, Czerwinska A, Markowska Zagrajek A, Moraczewski J, Stremińska W, et al. Adhesion proteins--an impact on skeletal myoblast differentiation. PLoS ONE. 2013;8:e61760 pubmed publisher |
- immunohistochemistry - paraffin section; chicken; 1:100
| Kobayashi N, Homma S, Okada T, Masuda T, Sato N, Nishiyama K, et al. Elucidation of target muscle and detailed development of dorsal motor neurons in chick embryo spinal cord. J Comp Neurol. 2013;521:2987-3002 pubmed publisher |
- western blot; rat
- immunohistochemistry - free floating section; Spanish newt; 1:500
- western blot; Spanish newt
| Joven A, Morona R, González A, Moreno N. Expression patterns of Pax6 and Pax7 in the adult brain of a urodele amphibian, Pleurodeles waltl. J Comp Neurol. 2013;521:2088-124 pubmed publisher |
- immunohistochemistry - paraffin section; mouse; 1:100
| Criswell T, Corona B, Wang Z, Zhou Y, Niu G, Xu Y, et al. The role of endothelial cells in myofiber differentiation and the vascularization and innervation of bioengineered muscle tissue in vivo. Biomaterials. 2013;34:140-9 pubmed publisher |
- immunohistochemistry; dime-store turtle; 1:500
| Moreno N, Dominguez L, Morona R, González A. Subdivisions of the turtle Pseudemys scripta hypothalamus based on the expression of regulatory genes and neuronal markers. J Comp Neurol. 2012;520:453-78 pubmed publisher |
- immunohistochemistry - frozen section; mouse; 1:10
| Vue T, Aaker J, Taniguchi A, Kazemzadeh C, Skidmore J, Martin D, et al. Characterization of progenitor domains in the developing mouse thalamus. J Comp Neurol. 2007;505:73-91 pubmed |
| Ribeiro A, Souza L, Almeida C, Ishiba R, Fernandes S, Guerrieri D, et al. Muscle satellite cells and impaired late stage regeneration in different murine models for muscular dystrophies. Sci Rep. 2019;9:11842 pubmed publisher |
| Bronisz Budzynska I, Chwalenia K, Mucha O, Podkalicka P, Karolina Bukowska Strakova -, Jozkowicz A, et al. miR-146a deficiency does not aggravate muscular dystrophy in mdx mice. Skelet Muscle. 2019;9:22 pubmed publisher |
| Schroer A, Mohamed J, Willard M, Setola V, OESTREICH E, Siderovski D. A role for Regulator of G protein Signaling-12 (RGS12) in the balance between myoblast proliferation and differentiation. PLoS ONE. 2019;14:e0216167 pubmed publisher |
| Chacon J, Rogers C. Early expression of Tubulin Beta-III in avian cranial neural crest cells. Gene Expr Patterns. 2019;34:119067 pubmed publisher |
| Muyskens J, Foote D, Bigot N, Strycker L, Smolkowski K, Kirkpatrick T, et al. Cellular and morphological changes with EAA supplementation before and after total knee arthroplasty. J Appl Physiol (1985). 2019;127:531-545 pubmed publisher |
| Su Y, Yu Y, Liu C, Zhang Y, Liu C, Ge M, et al. Fate decision of satellite cell differentiation and self-renewal by miR-31-IL34 axis. Cell Death Differ. 2019;: pubmed publisher |
| Englund D, Peck B, Murach K, Neal A, Caldwell H, McCarthy J, et al. Resident muscle stem cells are not required for testosterone-induced skeletal muscle hypertrophy. Am J Physiol Cell Physiol. 2019;317:C719-C724 pubmed publisher |
| Scaramozza A, Park D, Kollu S, Beerman I, Sun X, Rossi D, et al. Lineage Tracing Reveals a Subset of Reserve Muscle Stem Cells Capable of Clonal Expansion under Stress. Cell Stem Cell. 2019;24:944-957.e5 pubmed publisher |
| Ohno Y, Ando K, Ito T, Suda Y, Matsui Y, Oyama A, et al. Lactate Stimulates a Potential for Hypertrophy and Regeneration of Mouse Skeletal Muscle. Nutrients. 2019;11: pubmed publisher |
| Abe K, Shimada A, Tayama S, Nishikawa H, Kaneko T, Tsuda S, et al. Horizontal Boundary Cells, a Special Group of Somitic Cells, Play Crucial Roles in the Formation of Dorsoventral Compartments in Teleost Somite. Cell Rep. 2019;27:928-939.e4 pubmed publisher |
| Hutchins E, Bronner M. Draxin alters laminin organization during basement membrane remodeling to control cranial neural crest EMT. Dev Biol. 2019;446:151-158 pubmed publisher |
| Yao X, Yu T, Xi F, Xu Y, Ma L, Pan X, et al. BAMBI shuttling between cytosol and membrane is required for skeletal muscle development and regeneration. Biochem Biophys Res Commun. 2018;: pubmed publisher |
| Lagalice L, Pichon J, Gougeon E, Soussi S, Deniaud J, Ledevin M, et al. Satellite cells fail to contribute to muscle repair but are functional in Pompe disease (glycogenosis type II). Acta Neuropathol Commun. 2018;6:116 pubmed publisher |
| Sampath S, Sampath S, Ho A, Corbel S, Millstone J, Lamb J, et al. Induction of muscle stem cell quiescence by the secreted niche factor Oncostatin M. Nat Commun. 2018;9:1531 pubmed publisher |
| Nederveen J, Joanisse S, Snijders T, Thomas A, Kumbhare D, Parise G. The influence of capillarization on satellite cell pool expansion and activation following exercise-induced muscle damage in healthy young men. J Physiol. 2018;596:1063-1078 pubmed publisher |
| Tierney M, Stec M, Rulands S, Simons B, Sacco A. Muscle Stem Cells Exhibit Distinct Clonal Dynamics in Response to Tissue Repair and Homeostatic Aging. Cell Stem Cell. 2018;22:119-127.e3 pubmed publisher |
| Greschik H, Duteil D, Messaddeq N, Willmann D, Arrigoni L, Sum M, et al. The histone code reader Spin1 controls skeletal muscle development. Cell Death Dis. 2017;8:e3173 pubmed publisher |
| Du H, Shih C, Wosczyna M, Mueller A, Cho J, Aggarwal A, et al. Macrophage-released ADAMTS1 promotes muscle stem cell activation. Nat Commun. 2017;8:669 pubmed publisher |
| Snouffer A, Brown D, Lee H, Walsh J, Lupu F, Norman R, et al. Cell Cycle-Related Kinase (CCRK) regulates ciliogenesis and Hedgehog signaling in mice. PLoS Genet. 2017;13:e1006912 pubmed publisher |
| Gao H, Hartnett S, Li Y. Ubiquitin C-Terminal Hydrolase L1 regulates myoblast proliferation and differentiation. Biochem Biophys Res Commun. 2017;492:96-102 pubmed publisher |
| Solanas G, Peixoto F, Perdiguero E, Jardi M, Ruiz Bonilla V, Datta D, et al. Aged Stem Cells Reprogram Their Daily Rhythmic Functions to Adapt to Stress. Cell. 2017;170:678-692.e20 pubmed publisher |
| Wang C, Li J, Meng Q, Wang B. Three Tctn proteins are functionally conserved in the regulation of neural tube patterning and Gli3 processing but not ciliogenesis and Hedgehog signaling in the mouse. Dev Biol. 2017;430:156-165 pubmed publisher |
| Perroud J, Bernheim L, Frieden M, Koenig S. Distinct roles of NFATc1 and NFATc4 in human primary myoblast differentiation and in the maintenance of reserve cells. J Cell Sci. 2017;130:3083-3093 pubmed publisher |
| Thomas J, Sznajder Ł, Bardhi O, Aslam F, Anastasiadis Z, Scotti M, et al. Disrupted prenatal RNA processing and myogenesis in congenital myotonic dystrophy. Genes Dev. 2017;31:1122-1133 pubmed publisher |
| Monge C, DiStasio N, Rossi T, Sébastien M, Sakai H, Kalman B, et al. Quiescence of human muscle stem cells is favored by culture on natural biopolymeric films. Stem Cell Res Ther. 2017;8:104 pubmed publisher |
| Roellig D, Tan Cabugao J, Esaian S, Bronner M. Dynamic transcriptional signature and cell fate analysis reveals plasticity of individual neural plate border cells. elife. 2017;6: pubmed publisher |
| Miersch C, Stange K, Hering S, Kolisek M, Viergutz T, Röntgen M. Molecular and functional heterogeneity of early postnatal porcine satellite cell populations is associated with bioenergetic profile. Sci Rep. 2017;7:45052 pubmed publisher |
| Himmels P, Paredes I, Adler H, Karakatsani A, Luck R, Marti H, et al. Motor neurons control blood vessel patterning in the developing spinal cord. Nat Commun. 2017;8:14583 pubmed publisher |
| Goh Q, Millay D. Requirement of myomaker-mediated stem cell fusion for skeletal muscle hypertrophy. elife. 2017;6: pubmed publisher |
| Schwörer S, Becker F, Feller C, Baig A, Köber U, Henze H, et al. Epigenetic stress responses induce muscle stem-cell ageing by Hoxa9 developmental signals. Nature. 2016;540:428-432 pubmed publisher |
| Paris N, Soroka A, Klose A, Liu W, Chakkalakal J. Smad4 restricts differentiation to promote expansion of satellite cell derived progenitors during skeletal muscle regeneration. elife. 2016;5: pubmed publisher |
| Blanc R, Vogel G, Li X, Yu Z, Li S, Richard S. Arginine Methylation by PRMT1 Regulates Muscle Stem Cell Fate. Mol Cell Biol. 2017;37: pubmed publisher |
| Moyle L, Blanc E, Jaka O, Prueller J, Banerji C, Tedesco F, et al. Ret function in muscle stem cells points to tyrosine kinase inhibitor therapy for facioscapulohumeral muscular dystrophy. elife. 2016;5: pubmed publisher |
| Caprara G, Morabito C, Perni S, Navarra R, Guarnieri S, Mariggio M. Evidence for Altered Ca2+ Handling in Growth Associated Protein 43-Knockout Skeletal Muscle. Front Physiol. 2016;7:493 pubmed |
| Maesner C, Almada A, Wagers A. Established cell surface markers efficiently isolate highly overlapping populations of skeletal muscle satellite cells by fluorescence-activated cell sorting. Skelet Muscle. 2016;6:35 pubmed publisher |
| Junge H, Yung A, Goodrich L, Chen Z. Netrin1/DCC signaling promotes neuronal migration in the dorsal spinal cord. Neural Dev. 2016;11:19 pubmed |
| Kivela R, Salmela I, Nguyen Y, Petrova T, Koistinen H, Wiener Z, et al. The transcription factor Prox1 is essential for satellite cell differentiation and muscle fibre-type regulation. Nat Commun. 2016;7:13124 pubmed publisher |
| Nagahisa H, Mukai K, Ohmura H, Takahashi T, Miyata H. Effect of High-Intensity Training in Normobaric Hypoxia on Thoroughbred Skeletal Muscle. Oxid Med Cell Longev. 2016;2016:1535367 pubmed |
| Al Jaam B, Heu K, Pennarubia F, Segelle A, Magnol L, Germot A, et al. Reduced Notch signalling leads to postnatal skeletal muscle hypertrophy in Pofut1cax/cax mice. Open Biol. 2016;6: pubmed publisher |
| Czerwinska A, Nowacka J, Aszer M, Gawrzak S, Archacka K, Fogtman A, et al. Cell cycle regulation of embryonic stem cells and mouse embryonic fibroblasts lacking functional Pax7. Cell Cycle. 2016;15:2931-2942 pubmed |
| Chal J, Al Tanoury Z, Hestin M, Gobert B, Aivio S, Hick A, et al. Generation of human muscle fibers and satellite-like cells from human pluripotent stem cells in vitro. Nat Protoc. 2016;11:1833-50 pubmed publisher |
| Costamagna D, Mommaerts H, Sampaolesi M, Tylzanowski P. Noggin inactivation affects the number and differentiation potential of muscle progenitor cells in vivo. Sci Rep. 2016;6:31949 pubmed publisher |
| Zhao Q, Kang Y, Wang H, Guan W, Li X, Jiang L, et al. Expression profiling and functional characterization of miR-192 throughout sheep skeletal muscle development. Sci Rep. 2016;6:30281 pubmed publisher |
| Sellathurai J, Nielsen J, Hejbøl E, Jørgensen L, Dhawan J, Nielsen M, et al. Low Oxygen Tension Enhances Expression of Myogenic Genes When Human Myoblasts Are Activated from G0 Arrest. PLoS ONE. 2016;11:e0158860 pubmed publisher |
| De Cristofaro T, Di Palma T, Soriano A, Monticelli A, Affinito O, Cocozza S, et al. Candidate genes and pathways downstream of PAX8 involved in ovarian high-grade serous carcinoma. Oncotarget. 2016;7:41929-41947 pubmed publisher |
| Mahmoud M, Kim H, Xing R, Hsiao S, Mammoto A, Chen J, et al. TWIST1 Integrates Endothelial Responses to Flow in Vascular Dysfunction and Atherosclerosis. Circ Res. 2016;119:450-62 pubmed publisher |
| Quarta M, Brett J, DiMarco R, de Morrée A, Boutet S, Chacon R, et al. An artificial niche preserves the quiescence of muscle stem cells and enhances their therapeutic efficacy. Nat Biotechnol. 2016;34:752-9 pubmed publisher |
| Zhang R, Judson R, Liu D, Kast J, Rossi F. The lysine methyltransferase Ehmt2/G9a is dispensable for skeletal muscle development and regeneration. Skelet Muscle. 2016;6:22 pubmed publisher |
| Jensen L, Jørgensen L, Bech R, Frandsen U, Schrøder H. Skeletal Muscle Remodelling as a Function of Disease Progression in Amyotrophic Lateral Sclerosis. Biomed Res Int. 2016;2016:5930621 pubmed publisher |
| Jaafar Marican N, Cruz Migoni S, Borycki A. Asymmetric Distribution of Primary Cilia Allocates Satellite Cells for Self-Renewal. Stem Cell Reports. 2016;6:798-805 pubmed publisher |
| Pipalia T, Koth J, Roy S, Hammond C, Kawakami K, Hughes S. Cellular dynamics of regeneration reveals role of two distinct Pax7 stem cell populations in larval zebrafish muscle repair. Dis Model Mech. 2016;9:671-84 pubmed publisher |
| González N, Moresco J, Cabezas F, de la Vega E, Bustos F, Yates J, et al. Ck2-Dependent Phosphorylation Is Required to Maintain Pax7 Protein Levels in Proliferating Muscle Progenitors. PLoS ONE. 2016;11:e0154919 pubmed publisher |
| Kornegay J, Bogan D, Bogan J, Dow J, Wang J, Fan Z, et al. Dystrophin-deficient dogs with reduced myostatin have unequal muscle growth and greater joint contractures. Skelet Muscle. 2016;6:14 pubmed publisher |
| Almeida C, Fernandes S, Ribeiro Junior A, Keith Okamoto O, Vainzof M. Muscle Satellite Cells: Exploring the Basic Biology to Rule Them. Stem Cells Int. 2016;2016:1078686 pubmed publisher |
| Davignon L, Chauveau C, Julien C, Dill C, Duband Goulet I, Cabet E, et al. The transcription coactivator ASC-1 is a regulator of skeletal myogenesis, and its deficiency causes a novel form of congenital muscle disease. Hum Mol Genet. 2016;25:1559-73 pubmed publisher |
| Faralli H, Wang C, Nakka K, Benyoucef A, Sebastian S, Zhuang L, et al. UTX demethylase activity is required for satellite cell-mediated muscle regeneration. J Clin Invest. 2016;126:1555-65 pubmed publisher |
| Morena D, Maestro N, Bersani F, Forni P, Lingua M, Foglizzo V, et al. Hepatocyte Growth Factor-mediated satellite cells niche perturbation promotes development of distinct sarcoma subtypes. elife. 2016;5: pubmed publisher |
| Marchildon F, Fu D, Lala Tabbert N, Wiper Bergeron N. CCAAT/enhancer binding protein beta protects muscle satellite cells from apoptosis after injury and in cancer cachexia. Cell Death Dis. 2016;7:e2109 pubmed publisher |
| Kim J, Hopkinson M, Kavishwar M, Fernandez Fuente M, Brown S. Prenatal muscle development in a mouse model for the secondary dystroglycanopathies. Skelet Muscle. 2016;6:3 pubmed publisher |
| Bhattacharyya S, Rainey M, Arya P, Mohapatra B, Mushtaq I, Dutta S, et al. Endocytic recycling protein EHD1 regulates primary cilia morphogenesis and SHH signaling during neural tube development. Sci Rep. 2016;6:20727 pubmed publisher |
| Malecova B, Dall Agnese A, Madaro L, Gatto S, Coutinho Toto P, Albini S, et al. TBP/TFIID-dependent activation of MyoD target genes in skeletal muscle cells. elife. 2016;5: pubmed publisher |
| Hwang O, Park J, Lee E, Lee E, Kim A, Jeong K. Therapeutic Effect of Losartan, an Angiotensin II Type 1 Receptor Antagonist, on CClâ‚„-Induced Skeletal Muscle Injury. Int J Mol Sci. 2016;17:227 pubmed publisher |
| Safdar A, Khrapko K, Flynn J, Saleem A, De Lisio M, Johnston A, et al. Exercise-induced mitochondrial p53 repairs mtDNA mutations in mutator mice. Skelet Muscle. 2016;6:7 pubmed publisher |
| Hardy D, Besnard A, Latil M, Jouvion G, Briand D, Thepenier C, et al. Comparative Study of Injury Models for Studying Muscle Regeneration in Mice. PLoS ONE. 2016;11:e0147198 pubmed publisher |
| Nagahisa H, Okabe K, Iuchi Y, Fujii J, Miyata H. Characteristics of Skeletal Muscle Fibers of SOD1 Knockout Mice. Oxid Med Cell Longev. 2016;2016:9345970 pubmed publisher |
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