Papers associated with whole organism (and srf)

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	Repression of Inappropriate Gene Expression in the Vertebrate Embryonic Ectoderm., Reich S., Genes (Basel). November 6, 2019; 10 (11):
	Excitatory synaptic dysfunction cell-autonomously decreases inhibitory inputs and disrupts structural and functional plasticity., He HY., Nat Commun. July 24, 2018; 9 (1): 2893.
	Roles of Xenopus chemokine ligand CXCLh (XCXCLh) in early embryogenesis., Goto T., Dev Growth Differ. May 1, 2018; 60 (4): 226-238.
	Overexpression of p49/STRAP alters cellular cytoskeletal structure and gross anatomy in mice., Zhang X., BMC Cell Biol. September 2, 2014; 15 32.
	GEF-H1 functions in apical constriction and cell intercalations and is essential for vertebrate neural tube closure., Itoh K., J Cell Sci. June 1, 2014; 127 (Pt 11): 2542-53.
	Rho signalling restriction by the RhoGAP Stard13 integrates growth and morphogenesis in the pancreas., Petzold KM., Development. January 1, 2013; 140 (1): 126-35.
	RhoGAP control of pancreas development: putting cells in the right place at the right time., Zygmunt T., Small GTPases. January 1, 2013; 4 (2): 127-31.
	Dissociation of cardiogenic and postnatal myocardial activities of GATA4., Gallagher JM., Mol Cell Biol. June 1, 2012; 32 (12): 2214-23.
	WD repeat-containing protein 5, a ubiquitously expressed histone methyltransferase adaptor protein, regulates smooth muscle cell-selective gene activation through interaction with pituitary homeobox 2., Gan Q., J Biol Chem. June 17, 2011; 286 (24): 21853-64.
	Downstream of FGF during mesoderm formation in Xenopus: the roles of Elk-1 and Egr-1., Nentwich O., Dev Biol. December 15, 2009; 336 (2): 313-26.
	Effects of TCDD on spermatogenesis related factor-2 (SRF-2): gene expression in Xenopus., Rossi F., Toxicol Lett. December 15, 2009; 191 (2-3): 189-94.
	Induction and modulation of smooth muscle differentiation in Xenopus embryonic cells., Barillot W., Dev Dyn. November 1, 2008; 237 (11): 3373-86.
	The myocardin-related transcription factor, MASTR, cooperates with MyoD to activate skeletal muscle gene expression., Meadows SM., Proc Natl Acad Sci U S A. February 5, 2008; 105 (5): 1545-50.
	Negative regulation of Activin/Nodal signaling by SRF during Xenopus gastrulation., Yun CH., Development. February 1, 2007; 134 (4): 769-77.
	Myoskeletin, a factor related to Myocardin, is expressed in somites and required for hypaxial muscle formation in Xenopus., Zhao H., Int J Dev Biol. January 1, 2007; 51 (4): 315-20.
	Xenopus embryos lacking specific isoforms of the corepressor SMRT develop abnormal heads., Malartre M., Dev Biol. April 15, 2006; 292 (2): 333-43.
	Myocardin is sufficient and necessary for cardiac gene expression in Xenopus., Small EM., Development. March 1, 2005; 132 (5): 987-97.
	Functional role of a novel ternary complex comprising SRF and CREB in expression of Krox-20 in early embryos of Xenopus laevis., Watanabe T., Dev Biol. January 15, 2005; 277 (2): 508-21.
	Transcriptional regulation of the cardiac-specific MLC2 gene during Xenopus embryonic development., Latinkic BV., Development. February 1, 2004; 131 (3): 669-79.
	Transgenic analysis of the atrialnatriuretic factor (ANF) promoter: Nkx2-5 and GATA-4 binding sites are required for atrial specific expression of ANF., Small EM., Dev Biol. September 1, 2003; 261 (1): 116-31.
	Potentiation of serum response factor activity by a family of myocardin-related transcription factors., Wang DZ., Proc Natl Acad Sci U S A. November 12, 2002; 99 (23): 14855-60.
	Modulation of cardiac growth and development by HOP, an unusual homeodomain protein., Shin CH., Cell. September 20, 2002; 110 (6): 725-35.
	Differential regulation of the cardiac sodium calcium exchanger promoter in adult and neonatal cardiomyocytes by Nkx2.5 and serum response factor., Müller JG., J Mol Cell Cardiol. July 1, 2002; 34 (7): 807-21.
	Distinct enhancers regulate skeletal and cardiac muscle-specific expression programs of the cardiac alpha-actin gene in Xenopus embryos., Latinkić BV., Dev Biol. May 1, 2002; 245 (1): 57-70.
	Activation of cardiac gene expression by myocardin, a transcriptional cofactor for serum response factor., Wang D., Cell. June 29, 2001; 105 (7): 851-62.
	Requirement for BMP and FGF signaling during cardiogenic induction in non-precardiac mesoderm is specific, transient, and cooperative., Barron M., Dev Dyn. June 1, 2000; 218 (2): 383-93.
	Transient cardiac expression of the tinman-family homeobox gene, XNkx2-10., Newman CS., Mech Dev. March 1, 2000; 91 (1-2): 369-73.
	Characterization of the Ets-type protein ER81 in Xenopus embryos., Chen Y, Chen Y., Mech Dev. January 1, 1999; 80 (1): 67-76.
	The Spemann organizer-expressed zinc finger gene Xegr-1 responds to the MAP kinase/Ets-SRF signal transduction pathway., Panitz F., EMBO J. August 3, 1998; 17 (15): 4414-25.
	GATA-4 and Nkx-2.5 coactivate Nkx-2 DNA binding targets: role for regulating early cardiac gene expression., Sepulveda JL., Mol Cell Biol. June 1, 1998; 18 (6): 3405-15.
	Organization and myogenic restricted expression of the murine serum response factor gene. A role for autoregulation., Belaguli NS., J Biol Chem. July 18, 1997; 272 (29): 18222-31.
	Recruitment of the tinman homolog Nkx-2.5 by serum response factor activates cardiac alpha-actin gene transcription., Chen CY., Mol Cell Biol. November 1, 1996; 16 (11): 6372-84.
	Activation of the cardiac alpha-actin promoter depends upon serum response factor, Tinman homologue, Nkx-2.5, and intact serum response elements., Chen CY., Dev Genet. January 1, 1996; 19 (2): 119-30.
	Activation of Xenopus MyoD transcription by members of the MEF2 protein family., Wong MW., Dev Biol. December 1, 1994; 166 (2): 683-95.
	A fourth human MEF2 transcription factor, hMEF2D, is an early marker of the myogenic lineage., Breitbart RE., Development. August 1, 1993; 118 (4): 1095-106.
	Muscle-specific expression of SRF-related genes in the early embryo of Xenopus laevis., Chambers AE., EMBO J. December 1, 1992; 11 (13): 4981-91.
	Muscle-specific (CArG) and serum-responsive (SRE) promoter elements are functionally interchangeable in Xenopus embryos and mouse fibroblasts., Taylor M., Development. May 1, 1989; 106 (1): 67-78.

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