SEARCH

SEARCH BY CITATION

REFERENCES

  • Akasaka T, Klinedinst S, Ocorr K, Bustamante EL, Kim SK, Bodmer R. 2006. The ATP-sensitive potassium (KATP) channel-encoded dSUR gene is required for Drosophila heart function and is regulated by tinman. Proc Natl Acad Sci U S A 103: 1199912004.
  • Alvarez AD, Shi W, Wilson BA, Skeath JB. 2003. pannier and pointedP2 act sequentially to regulate Drosophila heart development. Development 130: 30153026.
  • Azpiazu N, Frasch M. 1993. tinman and bagpipe: two homeo box genes that determine cell fates in the dorsal mesoderm of Drosophila. Genes Dev 7: 13251340.
  • Barolo S, Carver LA, Posakony JW. 2000. GFP and beta-galactosidase transformation vectors for promoter/enhancer analysis in Drosophila. Biotechniques 29: 726, 728, 730, 732.
  • Bodmer R. 1993. The gene tinman is required for specification of the heart and visceral muscles in Drosophila. Development 118: 719729.
  • Brand A, Perrimon N. 1993. Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118: 401415.
  • Buescher M, Svendsen PC, Tio M, Miskolczi-McCallum C, Tear G, Brook WJ, Chia W. 2004. Drosophila T box proteins break the symmetry of hedgehog-dependent activation of wingless. Curr Biol 14: 16941702.
  • Cai CL, Zhou W, Yang L, Bu L, Qyang Y, Zhang X, Li X, Rosenfeld MG, Chen J, Evans S. 2005. T-box genes coordinate regional rates of proliferation and regional specification during cardiogenesis. Development 132: 24752487.
  • Cripps RM, Olson EN. 2002. Control of cardiac development by an evolutionarily conserved transcriptional network. Dev Biol 246: 1428.
  • Cripps RM, Zhao B, Olson EN. 1999. Transcription of the myogenic regulatory gene Mef2 in cardiac, somatic, and visceral muscle cell lineages is regulated by a Tinman-dependent core enhancer. Dev Biol 215: 420430.
  • Gajewski K, Kim Y, Lee YM, Olson EN, Schulz RA. 1997. D-mef2 is a target for Tinman activation during Drosophila heart development. EMBO J 16: 515522.
  • Gajewski K, Kim Y, Choi CY, Schulz RA. 1998. Combinatorial control of Drosophila mef2 gene expression in cardiac and somatic muscle cell lineages. Dev Genes Evol 208: 382392.
  • Gajewski K, Fossett N, Molkentin JD, Schulz RA. 1999. The zinc finger proteins Pannier and GATA4 function as cardiogenic factors in Drosophila. Development 126: 56795688.
  • Haenlin M, Cubadda Y, Blondeau F, Heitzler P, Lutz Y, Simpson P, Ramain P. 1997. Transcriptional activity of pannier is regulated negatively by heterodimerization of the GATA DNA-binding domain with a cofactor encoded by the u-shaped gene of Drosophila. Genes Dev 11: 30963108.
  • Halfon MS, Carmena A, Gisselbrecht S, Sackerson CM, Jimenez F, Baylies MK, Michelson AM. 2000. Ras pathway specificity is determined by the integration of multiple signal-activated and tissue-restricted transcription factors. Cell 103: 6374.
  • Han Z, Bodmer R. 2003. Myogenic cells fates are antagonized by Notch only in asymmetric lineages of the Drosophila heart, with or without cell division. Development 130: 30393051.
  • Han Z, Olson EN. 2005. Hand is a direct target of Tinman and GATA factors during Drosophila cardiogenesis and hematopoiesis. Development 132: 35253536.
  • Hendren JD, Shah AP, Arguelles AM, Cripps RM. 2007. Cardiac expression of the Drosophila Sulphonylurea receptor gene is regulated by an intron enhancer dependent upon the NK homeodomain factor Tinman. Mech Dev 124: 416426.
  • Kirk EP, Sunde M, Costa MW, Rankin SA, Wolstein O, Castro ML, Butler TL, Hyun C, Guo G, Otway R, Mackay JP, Waddell LB, Cole AD, Hayward C, Keogh A, Macdonald P, Griffiths L, Fatkin D, Sholler GF, Zorn AM, Feneley MP, Winlaw DS, Harvey RP. 2007. Mutations in cardiac T-box factor gene TBX20 are associated with diverse cardiac pathologies, including defects of septation and valvulogenesis and cardiomyopathy. Am J Hum Genet 81: 280291.
  • Klinedinst SL, Bodmer R. 2003. Gata factor Pannier is required to establish competence for heart progenitor formation. Development 130: 30273038.
  • Lecuyer E, Parthasarathy N, Krause HM. 2008. Fluorescent in situ hybridization protocols in Drosophila embryos and tissues. Methods Mol Biol 420: 289302.
  • Lo PC, Frasch M. 2001. A role for the COUP-TF-related gene seven-up in the diversification of cardioblast identities in the dorsal vessel of Drosophila. Mech Dev 104: 4960.
  • Markstein M, Markstein P, Markstein V, Levine MS. 2002. Genome-wide analysis of clustered Dorsal binding sites identifies putative target genes in the Drosophila embryo. Proc Natl Acad Sci U S A 99: 763768.
  • Miskolczi-McCallum CM, Scavetta RJ, Svendsen PC, Soanes KH, Brook WJ. 2005. The Drosophila melanogaster T-box genes midline and H15 are conserved regulators of heart development. Dev Biol 278: 459472.
  • Olson EN. 2006. Gene regulatory networks in the evolution and development of the heart. Science 313: 19221927.
  • Posch MG, Gramlich M, Sunde M, Schmitt KR, Lee SH, Richter S, Kersten A, Perrot A, Panek AN, Al Khatib IH, Nemer G, Megarbane A, Dietz R, Stiller B, Berger F, Harvey RP, Ozcelik C. 2010. A gain-of-function TBX20 mutation causes congenital atrial septal defects, patent foramen ovale and cardiac valve defects. J Med Genet 47: 230235.
  • Qian L, Liu J, Bodmer R. 2005. Neuromancer Tbx20-related genes (H15/midline) promote cell fate specification and morphogenesis of the Drosophila heart. Dev Biol 279: 509524.
  • Ramain P, Heitzler P, Haenlin M, Simpson P. 1993. pannier, a negative regulator of achaete and scute in Drosophila, encodes a zinc finger protein with homology to the vertebrate transcription factor GATA-1. Development 119: 12771291.
  • Ranganayakulu G, Elliott DA, Harvey RP, Olson EN. 1998. Divergent roles for NK-2 class homeobox genes in cardiogenesis in flies and mice. Development 125: 30373048.
  • Reim I, Frasch M. 2005. The Dorsocross T-box genes are key components of the regulatory network controlling early cardiogenesis in Drosophila. Development 132: 49114925.
  • Reim I, Frasch M. 2010. Genetic and genomic dissection of cardiogenesis in the Drosophila model. Pediatr Cardiol 31: 325334.
  • Reim I, Mohler JP, Frasch M. 2005. Tbx20-related genes, mid and H15, are required for tinman expression, proper patterning, and normal differentiation of cardioblasts in Drosophila. Mech Dev 122: 10561069.
  • Robertson HM, Preston CR, Phillis RW, Johnson-Schlitz DM, Benz WK, Engels WR. 1988. A stable genomic source of P element transposase in Drosophila melanogaster. Genetics 118: 461470.
  • Ryan KM, Hendren JD, Helander LA, Cripps RM. 2007. The NK homeodomain transcription factor Tinman is a direct activator of seven-up in the Drosophila dorsal vessel. Dev Biol 302: 694702.
  • Ryu JR, Arnosti DN. 2003. Functional similarity of Knirps CtBP-dependent and CtBP-independent transcriptional repressor activities. Nucleic Acids Res 31: 46544662.
  • Stennard FA, Harvey RP. 2005. T-box transcription factors and their roles in regulatory hierarchies in the developing heart. Development 132: 48974910.
  • Stennard FA, Costa MW, Elliott DA, Rankin S, Haast SJ, Lai D, McDonald LP, Niederreither K, Dolle P, Bruneau BG, Zorn AM, Harvey RP. 2003. Cardiac T-box factor Tbx20 directly interacts with Nkx2-5, GATA4, and GATA5 in regulation of gene expression in the developing heart. Dev Biol 262: 206224.
  • Stennard FA, Costa MW, Lai D, Biben C, Furtado MB, Solloway MJ, McCulley DJ, Leimena C, Preis JI, Dunwoodie SL, Elliott DE, Prall OW, Black BL, Fatkin D, Harvey RP. 2005. Murine T-box transcription factor Tbx20 acts as a repressor during heart development, and is essential for adult heart integrity, function and adaptation. Development 132: 24512462.
  • Svendsen PC, Formaz-Preston A, Leal SM, Brook WJ. 2009. The Tbx20 homologs midline and H15 specify ventral fate in the Drosophila melanogaster leg. Development 136: 26892693.
  • Takeuchi JK, Mileikovskaia M, Koshiba-Takeuchi K, Heidt AB, Mori AD, Arruda EP, Gertsenstein M, Georges R, Davidson L, Mo R, Hui CC, Henkelman RM, Nemer M, Black BL, Nagy A, Bruneau BG. 2005. Tbx20 dose-dependently regulates transcription factor networks required for mouse heart and motoneuron development. Development 132: 24632474.
  • Tao Y, Wang J, Tokusumi T, Gajewski K, Schulz RA. 2007. Requirement of the LIM homeodomain transcription factor tailup for normal heart and hematopoietic organ formation in Drosophila melanogaster. Mol Cell Biol 27: 39623969.
  • Wang J, Tao Y, Reim I, Gajewski K, Frasch M, Schulz RA. 2005. Expression, regulation, and requirement of the toll transmembrane protein during dorsal vessel formation in Drosophila melanogaster. Mol Cell Biol 25: 42004210.
  • Ward EJ, Skeath JB. 2000. Characterization of a novel subset of cardiac cells and their progenitors in the Drosophila embryo. Development 127: 49594969.
  • Zaffran S, Frasch M. 2002. Early signals in cardiac development. Circ Res 91: 457469.
  • Zaffran S, Reim I, Qian L, Lo PC, Bodmer R, Frasch M. 2006. Cardioblast-intrinsic Tinman activity controls proper diversification and differentiation of myocardial cells in Drosophila. Development 133: 40734083.
  • Zinzen RP, Girardot C, Gagneur J, Braun M, Furlong EE. 2009. Combinatorial binding predicts spatio-temporal cis-regulatory activity. Nature 462: 6570.