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FASEB Journal
Volumn 29, Issue 11, 2015, Pages 4738-4755
Genome-wide association between Six4, MyoD, and the histone demethylase Utx during myogenesis
Author keywords

Adult muscle regeneration; Histone methylation; Transcriptional regulation
Indexed keywords

HISTONE DEMETHYLASE; HISTONE DEMETHYLASE UTX; HISTONE H3; MYOD PROTEIN; TRANSCRIPTION FACTOR; TRANSCRIPTION FACTOR SIX4; UNCLASSIFIED DRUG; HOMEODOMAIN PROTEIN; MYOD1 MYOGENIC DIFFERENTIATION PROTEIN; SIX4 PROTEIN, MOUSE; TRANSACTIVATOR PROTEIN; UTX PROTEIN, MOUSE;
EID: 84948768639     PISSN: 08926638     EISSN: 15306860     Source Type: Journal    
DOI: 10.1096/fj.15-277053     Document Type: Article
Times cited : (26)
References (85)
  • 1
    • 80051483036 scopus 로고    scopus 로고
    • An absolute requirement for Pax7-positive satellite cells in acute injury-induced skeletal muscle regeneration
    • Lepper, C., Partridge, T. A., and Fan, C. M. (2011) An absolute requirement for Pax7-positive satellite cells in acute injury-induced skeletal muscle regeneration. Development 138, 3639-3646
    • (2011) Development , vol.138 , pp. 3639-3646
    • Lepper, C.1    Partridge, T.A.2    Fan, C.M.3
  • 2
    • 80051542088 scopus 로고    scopus 로고
    • Satellite cells, connective tissue fibroblasts and their interactions are crucial for muscle regeneration
    • Murphy, M. M., Lawson, J. A., Mathew, S. J., Hutcheson, D. A., and Kardon, G. (2011) Satellite cells, connective tissue fibroblasts and their interactions are crucial for muscle regeneration. Development 138, 3625-3637
    • (2011) Development , vol.138 , pp. 3625-3637
    • Murphy, M.M.1    Lawson, J.A.2    Mathew, S.J.3    Hutcheson, D.A.4    Kardon, G.5
  • 4
    • 85027922510 scopus 로고    scopus 로고
    • Myf5-positive satellite cells contribute to Pax7-dependent long-term maintenance of adult muscle stem cells
    • Günther, S., Kim, J., Kostin, S., Lepper, C., Fan, C.M., and Braun, T. (2013) Myf5-positive satellite cells contribute to Pax7-dependent long-term maintenance of adult muscle stem cells. Cell Stem Cell 13, 590-601
    • (2013) Cell Stem Cell , vol.13 , pp. 590-601
    • Günther, S.1    Kim, J.2    Kostin, S.3    Lepper, C.4    Fan, C.M.5    Braun, T.6
  • 5
    • 84885340880 scopus 로고    scopus 로고
    • Pax7 is critical for the normal function of satellite cells in adult skeletal muscle
    • VonMaltzahn, J., Jones, A. E., Parks, R. J., andRudnicki, M.A. (2013) Pax7 is critical for the normal function of satellite cells in adult skeletal muscle. Proc. Natl. Acad. Sci. USA 110, 16474-16479
    • (2013) Proc. Natl. Acad. Sci. USA , vol.110 , pp. 16474-16479
    • VonMaltzahn, J.1    Jones, A.E.2    Parks, R.J.3    Rudnicki, M.A.4
  • 6
    • 24344491888 scopus 로고    scopus 로고
    • MyoDand the transcriptional control of myogenesis
    • Berkes, C.A., andTapscott, S. J. (2005)MyoDand the transcriptional control of myogenesis. Semin. Cell Dev. Biol. 16, 585-595
    • (2005) Semin. Cell Dev. Biol , vol.16 , pp. 585-595
    • Berkes, C.A.1    Tapscott, S.J.2
  • 7
    • 0031573026 scopus 로고    scopus 로고
    • Single-cell analysis of regulatory gene expression in quiescent and activated mouse skeletal muscle satellite cells
    • Cornelison, D. D., and Wold, B. J. (1997) Single-cell analysis of regulatory gene expression in quiescent and activated mouse skeletal muscle satellite cells. Dev. Biol. 191, 270-283
    • (1997) Dev. Biol , vol.191 , pp. 270-283
    • Cornelison, D.D.1    Wold, B.J.2
  • 12
    • 0029954208 scopus 로고    scopus 로고
    • MyoD is required for myogenic stem cell function in adult skeletal muscle
    • Megeney, L.A., Kablar, B., Garrett, K., Anderson, J. E., andRudnicki, M. A. (1996) MyoD is required for myogenic stem cell function in adult skeletal muscle. Genes Dev. 10, 1173-1183
    • (1996) Genes Dev , vol.10 , pp. 1173-1183
    • Megeney, L.A.1    Kablar, B.2    Garrett, K.3    Anderson, J.E.4    Rudnicki, M.A.5
  • 13
    • 4644220664 scopus 로고    scopus 로고
    • A MyoD-generated feed-forward circuit temporally patterns gene expression during skeletal muscle differentiation
    • Penn, B. H., Bergstrom, D. A., Dilworth, F. J., Bengal, E., and Tapscott, S. J. (2004) A MyoD-generated feed-forward circuit temporally patterns gene expression during skeletal muscle differentiation. Genes Dev. 18, 2348-2353
    • (2004) Genes Dev , vol.18 , pp. 2348-2353
    • Penn, B.H.1    Bergstrom, D.A.2    Dilworth, F.J.3    Bengal, E.4    Tapscott, S.J.5
  • 14
    • 84855695113 scopus 로고    scopus 로고
    • Transcription factor TEAD4 regulates expression of myogenin and the unfolded protein response genes during C2C12 cell differentiation
    • Benhaddou, A., Keime, C., Ye, T., Morlon, A., Michel, I., Jost, B., Mengus, G., and Davidson, I. (2012) Transcription factor TEAD4 regulates expression of myogenin and the unfolded protein response genes during C2C12 cell differentiation. Cell Death Differ. 19, 220-231
    • (2012) Cell Death Differ , vol.19 , pp. 220-231
    • Benhaddou, A.1    Keime, C.2    Ye, T.3    Morlon, A.4    Michel, I.5    Jost, B.6    Mengus, G.7    Davidson, I.8
  • 15
    • 32544457732 scopus 로고    scopus 로고
    • Global and genespecific analyses show distinct roles forMyod and Myog at a common set of promoters
    • Cao, Y., Kumar, R. M., Penn, B. H., Berkes, C. A., Kooperberg, C., Boyer, L.A., Young, R.A., andTapscott, S. J. (2006) Global and genespecific analyses show distinct roles forMyod and Myog at a common set of promoters. EMBO J. 25, 502-511
    • (2006) EMBO J , vol.25 , pp. 502-511
    • Cao, Y.1    Kumar, R.M.2    Penn, B.H.3    Berkes, C.A.4    Kooperberg, C.5    Boyer, L.A.6    Young, R.A.7    Tapscott, S.J.8
  • 16
    • 0141449169 scopus 로고    scopus 로고
    • Mef2c is activated directly by myogenic basic helix-loop-helix proteins during skeletal muscle development in vivo
    • Dodou, E., Xu, S. M., and Black, B. L. (2003) mef2c is activated directly by myogenic basic helix-loop-helix proteins during skeletal muscle development in vivo. Mech. Dev. 120, 1021-1032
    • (2003) Mech. Dev , vol.120 , pp. 1021-1032
    • Dodou, E.1    Xu, S.M.2    Black, B.L.3
  • 17
    • 0035203948 scopus 로고    scopus 로고
    • The Mef2c gene is a direct transcriptional target of myogenic bHLH and MEF2 proteins during skeletal muscle development
    • Wang, D. Z., Valdez, M. R., McAnally, J., Richardson, J., and Olson, E. N. (2001) The Mef2c gene is a direct transcriptional target of myogenic bHLH and MEF2 proteins during skeletal muscle development. Development 128, 4623-4633
    • (2001) Development , vol.128 , pp. 4623-4633
    • Wang, D.Z.1    Valdez, M.R.2    McAnally, J.3    Richardson, J.4    Olson, E.N.5
  • 19
    • 84920976375 scopus 로고    scopus 로고
    • Global MEF2 target gene analysis in cardiac and skeletal muscle reveals novel regulation of DUSP6 by p38MAPK-MEF2 signaling
    • Wales, S., Hashemi, S., Blais, A., andMcDermott, J. C. (2014)Global MEF2 target gene analysis in cardiac and skeletal muscle reveals novel regulation of DUSP6 by p38MAPK-MEF2 signaling. Nucleic Acids Res. 42, 11349-11362
    • (2014) Nucleic Acids Res , vol.42 , pp. 11349-11362
    • Wales, S.1    Hashemi, S.2    Blais, A.3    McDermott, J.C.4
  • 20
    • 0032564423 scopus 로고    scopus 로고
    • Expression of myogenin during embryogenesis is controlled by Six/sine oculis homeoproteins through a conservedMEF3 binding site
    • Spitz, F., Demignon, J., Porteu, A., Kahn, A., Concordet, J. P., Daegelen, D., and Maire, P. (1998) Expression of myogenin during embryogenesis is controlled by Six/sine oculis homeoproteins through a conservedMEF3 binding site. Proc. Natl. Acad. Sci. USA 95, 14220-14225
    • (1998) Proc. Natl. Acad. Sci. USA , vol.95 , pp. 14220-14225
    • Spitz, F.1    Demignon, J.2    Porteu, A.3    Kahn, A.4    Concordet, J.P.5    Daegelen, D.6    Maire, P.7
  • 21
    • 78449246287 scopus 로고    scopus 로고
    • Cooperation between myogenic regulatory factors and SIX family transcriptionfactors is important formyoblastdifferentiation
    • Liu, Y., Chu, A., Chakroun, I., Islam, U., and Blais, A. (2010) Cooperation between myogenic regulatory factors and SIX family transcriptionfactors is important formyoblastdifferentiation.Nucleic Acids Res. 38, 6857-6871
    • (2010) Nucleic Acids Res , vol.38 , pp. 6857-6871
    • Liu, Y.1    Chu, A.2    Chakroun, I.3    Islam, U.4    Blais, A.5
  • 25
    • 0027227469 scopus 로고
    • The regulation ofmyogenin gene expression during the embryonic development of the mouse
    • Yee, S. P., and Rigby, P.W. (1993) The regulation ofmyogenin gene expression during the embryonic development of the mouse. Genes Dev. 7(7A), 1277-1289
    • (1993) Genes Dev , vol.7 , Issue.7 A , pp. 1277-1289
    • Yee, S.P.1    Rigby, P.W.2
  • 26
    • 0041853845 scopus 로고    scopus 로고
    • Six1 is required for the early organogenesis of mammalian kidney
    • Xu, P. X., Zheng, W., Huang, L., Maire, P., Laclef, C., and Silvius, D. (2003) Six1 is required for the early organogenesis of mammalian kidney. Development 130, 3085-3094
    • (2003) Development , vol.130 , pp. 3085-3094
    • Xu, P.X.1    Zheng, W.2    Huang, L.3    Maire, P.4    Laclef, C.5    Silvius, D.6
  • 28
    • 0038016516 scopus 로고    scopus 로고
    • Thymus, kidney and craniofacial abnormalities in Six 1 deficient mice
    • Laclef, C., Souil, E., Demignon, J., and Maire, P. (2003) Thymus, kidney and craniofacial abnormalities in Six 1 deficient mice. Mech. Dev. 120, 669-679
    • (2003) Mech. Dev , vol.120 , pp. 669-679
    • Laclef, C.1    Souil, E.2    Demignon, J.3    Maire, P.4
  • 32
    • 19544366212 scopus 로고    scopus 로고
    • Six1 andSix4homeoproteins are required for Pax3 and Mrf expression during myogenesis in the mouse embryo
    • Grifone, R., Demignon, J., Houbron, C., Souil, E., Niro, C., Seller, M. J., Hamard, G., andMaire, P. (2005) Six1 andSix4homeoproteins are required for Pax3 and Mrf expression during myogenesis in the mouse embryo. Development 132, 2235-2249
    • (2005) Development , vol.132 , pp. 2235-2249
    • Grifone, R.1    Demignon, J.2    Houbron, C.3    Souil, E.4    Niro, C.5    Seller, M.J.6    Hamard, G.7    Maire, P.8
  • 37
    • 0037077444 scopus 로고    scopus 로고
    • Gene expression changes during mouse skeletal myoblast differentiation revealed by transcriptional profiling
    • Moran, J. L., Li, Y., Hill, A. A., Mounts, W. M., and Miller, C. P. (2002) Gene expression changes during mouse skeletal myoblast differentiation revealed by transcriptional profiling. Physiol. Genomics 10, 103-111
    • (2002) Physiol. Genomics , vol.10 , pp. 103-111
    • Moran, J.L.1    Li, Y.2    Hill, A.A.3    Mounts, W.M.4    Miller, C.P.5
  • 39
    • 84864627155 scopus 로고    scopus 로고
    • Pax3/7BP is a Pax7- and Pax3-binding protein that regulates the proliferation ofmuscle precursor cells by an epigenetic mechanism
    • Diao, Y., Guo, X., Li, Y., Sun, K., Lu, L., Jiang, L., Fu, X., Zhu, H., Sun, H., Wang, H., and Wu, Z. (2012) Pax3/7BP is a Pax7- and Pax3-binding protein that regulates the proliferation ofmuscle precursor cells by an epigenetic mechanism. Cell Stem Cell 11, 231-241
    • (2012) Cell Stem Cell , vol.11 , pp. 231-241
    • Diao, Y.1    Guo, X.2    Li, Y.3    Sun, K.4    Lu, L.5    Jiang, L.6    Fu, X.7    Zhu, H.8    Sun, H.9    Wang, H.10    Wu, Z.11
  • 40
    • 84885177457 scopus 로고    scopus 로고
    • Genome-wide survey by ChIP-seq reveals YY1 regulation of lincRNAs in skeletal myogenesis
    • Lu, L., Sun, K., Chen, X., Zhao, Y., Wang, L., Zhou, L., Sun, H., and Wang, H. (2013) Genome-wide survey by ChIP-seq reveals YY1 regulation of lincRNAs in skeletal myogenesis. EMBO J. 32, 2575-2588
    • (2013) EMBO J , vol.32 , pp. 2575-2588
    • Lu, L.1    Sun, K.2    Chen, X.3    Zhao, Y.4    Wang, L.5    Zhou, L.6    Sun, H.7    Wang, H.8
  • 41
    • 33847710201 scopus 로고    scopus 로고
    • CellProfiler: Free, versatile software for automated biological image analysis
    • Lamprecht, M. R., Sabatini, D. M., and Carpenter, A. E. (2007) CellProfiler: free, versatile software for automated biological image analysis. Biotechniques 42, 71-75
    • (2007) Biotechniques , vol.42 , pp. 71-75
    • Lamprecht, M.R.1    Sabatini, D.M.2    Carpenter, A.E.3
  • 42
    • 0028264320 scopus 로고
    • Primary mouse myoblast purification, characterization, and transplantation for cell-mediated gene therapy
    • Rando, T. A., and Blau, H. M. (1994) Primary mouse myoblast purification, characterization, and transplantation for cell-mediated gene therapy. J. Cell Biol. 125, 1275-1287
    • (1994) J. Cell Biol , vol.125 , pp. 1275-1287
    • Rando, T.A.1    Blau, H.M.2
  • 44
    • 0141506116 scopus 로고    scopus 로고
    • CLICK and EXPANDER: A systemfor clustering and visualizing gene expression data
    • Sharan, R., Maron-Katz, A., and Shamir, R. (2003) CLICK and EXPANDER: a systemfor clustering and visualizing gene expression data. Bioinformatics 19, 1787-1799
    • (2003) Bioinformatics , vol.19 , pp. 1787-1799
    • Sharan, R.1    Maron-Katz, A.2    Shamir, R.3
  • 46
    • 46449123335 scopus 로고    scopus 로고
    • Transcription factor and microRNA motif discovery: The Amadeus platform and a compendium of metazoan target sets
    • Linhart, C., Halperin, Y., and Shamir, R. (2008)Transcription factor and microRNA motif discovery: the Amadeus platform and a compendium of metazoan target sets. Genome Res. 18, 1180-1189
    • (2008) Genome Res , vol.18 , pp. 1180-1189
    • Linhart, C.1    Halperin, Y.2    Shamir, R.3
  • 47
    • 55749094855 scopus 로고    scopus 로고
    • An integrated software system for analyzing ChIP-chip and ChIP-seq data
    • Ji, H., Jiang, H., Ma, W., Johnson, D.S., Myers, R.M., andWong, W.H. (2008) An integrated software system for analyzing ChIP-chip and ChIP-seq data. Nat. Biotechnol. 26, 1293-1300
    • (2008) Nat. Biotechnol , vol.26 , pp. 1293-1300
    • Ji, H.1    Jiang, H.2    Ma, W.3    Johnson, D.S.4    Myers, R.M.5    Wong, W.H.6
  • 48
    • 84866913764 scopus 로고    scopus 로고
    • Discovery, optimization and validation of an optimal DNAbinding sequence for the Six1 homeodomain transcription factor
    • Liu, Y., Nandi, S., Martel, A., Antoun, A., Ioshikhes, I., and Blais, A. (2012) Discovery, optimization and validation of an optimal DNAbinding sequence for the Six1 homeodomain transcription factor. Nucleic Acids Res. 40, 8227-8239
    • (2012) Nucleic Acids Res , vol.40 , pp. 8227-8239
    • Liu, Y.1    Nandi, S.2    Martel, A.3    Antoun, A.4    Ioshikhes, I.5    Blais, A.6
  • 52
    • 9444225935 scopus 로고    scopus 로고
    • Java Treeview-extensible visualization of microarray data
    • Saldanha, A. J. (2004) Java Treeview-extensible visualization of microarray data. Bioinformatics 20, 3246-3248
    • (2004) Bioinformatics , vol.20 , pp. 3246-3248
    • Saldanha, A.J.1
  • 55
    • 0023663888 scopus 로고
    • Expression of a single transfected cDNA converts fibroblasts to myoblasts
    • Davis, R. L., Weintraub, H., and Lassar, A. B. (1987) Expression of a single transfected cDNA converts fibroblasts to myoblasts. Cell 51, 987-1000
    • (1987) Cell , vol.51 , pp. 987-1000
    • Davis, R.L.1    Weintraub, H.2    Lassar, A.B.3
  • 56
    • 0029590104 scopus 로고
    • Cooperative activation of muscle gene expression by MEF2 and myogenic bHLH proteins
    • Molkentin, J. D., Black, B. L., Martin, J. F., and Olson, E. N. (1995) Cooperative activation of muscle gene expression by MEF2 and myogenic bHLH proteins. Cell 83, 1125-1136
    • (1995) Cell , vol.83 , pp. 1125-1136
    • Molkentin, J.D.1    Black, B.L.2    Martin, J.F.3    Olson, E.N.4
  • 57
    • 0033635242 scopus 로고    scopus 로고
    • Regulation of skeletal myogenesis by association of the MEF2 transcription factor with class II histone deacetylases
    • Lu, J., McKinsey, T. A., Zhang, C. L., and Olson, E. N. (2000) Regulation of skeletal myogenesis by association of the MEF2 transcription factor with class II histone deacetylases. Mol. Cell 6, 233-244
    • (2000) Mol. Cell , vol.6 , pp. 233-244
    • Lu, J.1    McKinsey, T.A.2    Zhang, C.L.3    Olson, E.N.4
  • 58
    • 0031455587 scopus 로고    scopus 로고
    • A dominant-negative form of transcription factor MEF2 inhibits myogenesis
    • Ornatsky, O. I., Andreucci, J. J., and McDermott, J. C. (1997) A dominant-negative form of transcription factor MEF2 inhibits myogenesis. J. Biol. Chem. 272, 33271-33278
    • (1997) J. Biol. Chem , vol.272 , pp. 33271-33278
    • Ornatsky, O.I.1    Andreucci, J.J.2    McDermott, J.C.3
  • 59
    • 84907394666 scopus 로고    scopus 로고
    • NFATc1 controls skeletal musclefiber type andis anegative regulator ofMyoDactivity
    • Ehlers, M. L., Celona, B., and Black, B. L. (2014) NFATc1 controls skeletal musclefiber type andis anegative regulator ofMyoDactivity. Cell Reports 8, 1639-1648
    • (2014) Cell Reports , vol.8 , pp. 1639-1648
    • Ehlers, M.L.1    Celona, B.2    Black, B.L.3
  • 60
    • 2242467556 scopus 로고    scopus 로고
    • Mammalian vestigial-like 2, a cofactor of TEF-1 and MEF2 transcription factors that promotes skeletal muscle differentiation
    • Maeda, T., Chapman, D. L., and Stewart, A. F. (2002) Mammalian vestigial-like 2, a cofactor of TEF-1 and MEF2 transcription factors that promotes skeletal muscle differentiation. J. Biol. Chem. 277, 48889-48898
    • (2002) J. Biol. Chem , vol.277 , pp. 48889-48898
    • Maeda, T.1    Chapman, D.L.2    Stewart, A.F.3
  • 61
    • 84877587720 scopus 로고    scopus 로고
    • Baf60c drives glycolytic metabolism in the muscle and improves systemic glucose homeostasis through Deptor-mediated Akt activation
    • Meng, Z. X., Li, S., Wang, L., Ko, H. J., Lee, Y., Jung, D. Y., Okutsu, M., Yan, Z., Kim, J. K., and Lin, J. D. (2013) Baf60c drives glycolytic metabolism in the muscle and improves systemic glucose homeostasis through Deptor-mediated Akt activation. Nat. Med. 19, 640-645
    • (2013) Nat. Med , vol.19 , pp. 640-645
    • Meng, Z.X.1    Li, S.2    Wang, L.3    Ko, H.J.4    Lee, Y.5    Jung, D.Y.6    Okutsu, M.7    Yan, Z.8    Kim, J.K.9    Lin, J.D.10
  • 67
    • 0030951790 scopus 로고    scopus 로고
    • Granulomatous myositis: Pathologic re-evaluation by immunohistochemical analysis of infiltratingmononuclear cells
    • Takanashi, T., Suzuki, Y., Yoshino, Y., and Nonaka, I. (1997) Granulomatous myositis: pathologic re-evaluation by immunohistochemical analysis of infiltratingmononuclear cells. J. Neurol. Sci. 145, 41-47
    • (1997) J. Neurol. Sci , vol.145 , pp. 41-47
    • Takanashi, T.1    Suzuki, Y.2    Yoshino, Y.3    Nonaka, I.4
  • 70
    • 84879774966 scopus 로고    scopus 로고
    • Epigenetic regulation of skeletal muscle development and differentiation
    • Bharathy, N., Ling, B. M., and Taneja, R. (2013) Epigenetic regulation of skeletal muscle development and differentiation. Subcell. Biochem. 61, 139-150
    • (2013) Subcell. Biochem , vol.61 , pp. 139-150
    • Bharathy, N.1    Ling, B.M.2    Taneja, R.3
  • 71
    • 80052410699 scopus 로고    scopus 로고
    • Epigenetic regulation of satellite cell activation during muscle regeneration
    • Dilworth, F. J., and Blais, A. (2011) Epigenetic regulation of satellite cell activation during muscle regeneration. Stem Cell Res. Ther. 2, 18
    • (2011) Stem Cell Res. Ther , vol.2 , pp. 18
    • Dilworth, F.J.1    Blais, A.2
  • 72
    • 84937511084 scopus 로고    scopus 로고
    • Myogenesis in the genomics era
    • Blais, A. (2015) Myogenesis in the genomics era. J. Mol. Biol. 427, 2023-2038
    • (2015) J. Mol. Biol , vol.427 , pp. 2023-2038
    • Blais, A.1
  • 73
    • 0014739590 scopus 로고
    • Nature of dividing nuclei in skeletal muscle of growing rats
    • Moss, F. P., and Leblond, C. P. (1970) Nature of dividing nuclei in skeletal muscle of growing rats. J. Cell Biol. 44, 459-462
    • (1970) J. Cell Biol , vol.44 , pp. 459-462
    • Moss, F.P.1    Leblond, C.P.2
  • 74
    • 0015102314 scopus 로고
    • Satellite cells as the source of nuclei in muscles of growing rats
    • Moss, F. P., and Leblond, C. P. (1971) Satellite cells as the source of nuclei in muscles of growing rats. Anat. Rec. 170, 421-435
    • (1971) Anat. Rec , vol.170 , pp. 421-435
    • Moss, F.P.1    Leblond, C.P.2
  • 75
    • 0014299504 scopus 로고
    • Mitosis during postnatal growthinskeletal andcardiacmuscleof the rat
    • Shafiq, S. A., Gorycki, M. A., and Mauro, A. (1968) Mitosis during postnatal growthinskeletal andcardiacmuscleof the rat. J. Anat. 103, 135-141
    • (1968) J. Anat , vol.103 , pp. 135-141
    • Shafiq, S.A.1    Gorycki, M.A.2    Mauro, A.3
  • 77
    • 0029916927 scopus 로고    scopus 로고
    • Structure, function and expression of a murine homeobox protein AREC3, a homologue of Drosophila sine oculis gene product, and implication in development
    • Kawakami, K., Ohto, H., Ikeda, K., and Roeder, R. G. (1996) Structure, function and expression of a murine homeobox protein AREC3, a homologue of Drosophila sine oculis gene product, and implication in development. Nucleic Acids Res. 24, 303-310
    • (1996) Nucleic Acids Res , vol.24 , pp. 303-310
    • Kawakami, K.1    Ohto, H.2    Ikeda, K.3    Roeder, R.G.4
  • 78
    • 0033924215 scopus 로고    scopus 로고
    • Six family genes-structure and function as transcription factors and their roles in development
    • Kawakami, K., Sato, S., Ozaki, H., and Ikeda, K. (2000) Six family genes-structure and function as transcription factors and their roles in development. Bioessays 22, 616-626
    • (2000) Bioessays , vol.22 , pp. 616-626
    • Kawakami, K.1    Sato, S.2    Ozaki, H.3    Ikeda, K.4
  • 79
    • 0032825495 scopus 로고    scopus 로고
    • Cooperation of six and eya in activation of their target genes through nuclear translocation of Eya
    • Ohto, H., Kamada, S., Tago, K., Tominaga, S. I., Ozaki, H., Sato, S., and Kawakami, K. (1999) Cooperation of six and eya in activation of their target genes through nuclear translocation of Eya. Mol. Cell. Biol. 19, 6815-6824
    • (1999) Mol. Cell. Biol , vol.19 , pp. 6815-6824
    • Ohto, H.1    Kamada, S.2    Tago, K.3    Tominaga, S.I.4    Ozaki, H.5    Sato, S.6    Kawakami, K.7
  • 81
    • 0031972698 scopus 로고    scopus 로고
    • Multiple roles for the MyoD basic region in transmission of transcriptional activation signals and interaction withMEF2
    • Black, B. L., Molkentin, J. D., and Olson, E. N. (1998)Multiple roles for the MyoD basic region in transmission of transcriptional activation signals and interaction withMEF2. Mol. Cell. Biol. 18, 69-77
    • (1998) Mol. Cell. Biol , vol.18 , pp. 69-77
    • Black, B.L.1    Molkentin, J.D.2    Olson, E.N.3
  • 82
    • 84855957128 scopus 로고    scopus 로고
    • UTX, a histoneH3-lysine 27 demethylase, acts as a critical switch to activate the cardiac developmental program
    • Lee, S., Lee, J.W., and Lee, S. K. (2012)UTX, a histoneH3-lysine 27 demethylase, acts as a critical switch to activate the cardiac developmental program. Dev. Cell 22, 25-37
    • (2012) Dev. Cell , vol.22 , pp. 25-37
    • Lee, S.1    Lee, J.W.2    Lee, S.K.3
  • 84
    • 84891775193 scopus 로고    scopus 로고
    • Genome-wide profiling reveals stimulus-specific functions of p53 during differentiation and DNA damage of human embryonic stem cells
    • Akdemir, K. C., Jain, A. K., Allton, K., Aronow, B., Xu, X., Cooney, A. J., Li, W., and Barton, M. C. (2014)Genome-wide profiling reveals stimulus-specific functions of p53 during differentiation and DNA damage of human embryonic stem cells. Nucleic Acids Res. 42, 205-223
    • (2014) Nucleic Acids Res , vol.42 , pp. 205-223
    • Akdemir, K.C.1    Jain, A.K.2    Allton, K.3    Aronow, B.4    Xu, X.5    Cooney, A.J.6    Li, W.7    Barton, M.C.8
  • 85
    • 78649263390 scopus 로고    scopus 로고
    • Jmjd3 and UTXplay a demethylase-independent role inchromatinremodeling to regulate T-box family member-dependent gene expression
    • Miller, S. A., Mohn, S. E., and Weinmann, A. S. (2010) Jmjd3 and UTXplay a demethylase-independent role inchromatinremodeling to regulate T-box family member-dependent gene expression. Mol. Cell 40, 594-605
    • (2010) Mol. Cell , vol.40 , pp. 594-605
    • Miller, S.A.1    Mohn, S.E.2    Weinmann, A.S.3

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.