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    1. Hiroi, Y; Kudoh, S; Monzen, K; Ikeda, Y; Yazaki, Y; Nagai, R; Komuro, I
      Tbx5 associates with Nkx2-5 and synergistically promotes cardiomyocyte differentiation

      NATURE GENETICS
    2. Yelon, D
      Cardiac patterning and morphogenesis in zebrafish

      DEVELOPMENTAL DYNAMICS
    3. Molina, MR; Cripps, RM
      Ostia, the inflow tracts of the Drosophila heart, develop from a genetically distinct subset of cardial cells

      MECHANISMS OF DEVELOPMENT
    4. Lo, PCH; Frasch, M
      A role for the COUP-TF-related gene seven-up in the diversification of cardioblast identities in the dorsal vessel of Drosophila

      MECHANISMS OF DEVELOPMENT
    5. Marvin, MJ; Di Rocco, G; Gardiner, A; Bush, SM; Lassar, AB
      Inhibition of Wnt activity induces heart formation from posterior mesoderm

      GENES & DEVELOPMENT
    6. Jagla, K; Bellard, M; Frasch, M
      A cluster of Drosophila homeobox genes involved in mesoderm differentiation programs

      BIOESSAYS
    7. Weiss, JB; Suyama, KL; Lee, HH; Scott, MP
      Jelly belly: A Drosophila LDL receptor repeat-containing, signal required for mesoderm migration and differentiation

      CELL
    8. Wang, DZ; Chang, PS; Wang, ZG; Sutherland, L; Richardson, JA; Small, E; Krieg, PA; Olson, EN
      Activation of cardiac gene expression by myocardin, a transcriptional cofactor for serum response factor

      CELL
    9. Kasahara, H; Wakimoto, H; Liu, M; Maguire, CT; Converso, KL; Shioi, T; Huang, WY; Manning, WJ; Paul, D; Lawitts, J; Berul, CI; Izumo, S
      Progressive atrioventricular conduction defects and heart failure in mice expressing a mutant Csx/Nkx2.5 homeoprotein

      JOURNAL OF CLINICAL INVESTIGATION
    10. Palmer, S; Groves, N; Schindeler, A; Yeoh, T; Biben, C; Wang, CC; Sparrow, DB; Barnett, L; Jenkins, NA; Copeland, NG; Koentgen, F; Mohun, T; Harvey, RP
      The small muscle-specific protein Csl modifies cell shape and promotes myocyte fusion in an insulin-like growth factor 1-dependent manner

      JOURNAL OF CELL BIOLOGY
    11. Kasahara, H; Usheva, A; Ueyama, T; Aoki, H; Horikoshi, N; Izumo, S
      Characterization of homo- and heterodimerization of cardiac Csx/Nkx2.5 homeoprotein

      JOURNAL OF BIOLOGICAL CHEMISTRY
    12. Jamali, M; Rogerson, PJ; Wilton, S; Skerjanc, IS
      Nkx2-5 activity is essential for cardiomyogenesis

      JOURNAL OF BIOLOGICAL CHEMISTRY
    13. Guo, L; Lynch, J; Nakamura, K; Fliegel, L; Kasahara, H; Izumo, S; Komuro, I; Agellon, LB; Michalak, M
      COUP-TF1 antagonizes Nkx2.5-mediated activation of the calreticulin gene during cardiac development

      JOURNAL OF BIOLOGICAL CHEMISTRY
    14. Phiel, CJ; Gabbeta, V; Parsons, LM; Rothblat, D; Harvey, RP; McHugh, KM
      Differential binding of an SRF/NK-2/MEF2 transcription factor complex in normal versus neoplastic smooth muscle tissues

      JOURNAL OF BIOLOGICAL CHEMISTRY
    15. Mack, CP; Somlyo, AV; Hautmann, M; Somlyo, AP; Owens, GK
      Smooth muscle differentiation marker gene expression is regulated by RhoA-mediated actin polymerization

      JOURNAL OF BIOLOGICAL CHEMISTRY
    16. Knirr, S; Frasch, M
      Molecular integration of inductive and mesoderm-intrinsic inputs governs even-skipped enhancer activity in a subset of pericardial and dorsal muscle progenitors

      DEVELOPMENTAL BIOLOGY
    17. Gajewski, K; Zhang, Q; Choi, CY; Fossett, N; Dang, A; Kim, YH; Kim, Y; Schulz, RA
      Pannier is a transcriptional target and partner of tinman during Drosophila cardiogenesis

      DEVELOPMENTAL BIOLOGY
    18. Thomas, PS; Kasahara, H; Edmonson, AM; Izumo, S; Yacoub, MH; Barton, PJR; Gourdie, RG
      Elevated expression of Nkx-2.5 in developing myocardial conduction cells

      ANATOMICAL RECORD
    19. Gajewski, K; Choi, CY; Kim, Y; Schulz, RA
      Genetically distinct cardial cells within the Drosophila heart

      GENESIS
    20. Venkatesh, TV; Park, M; Ocorr, K; Nemaceck, J; Golden, K; Wemple, M; Bodmer, R
      Cardiac enhancer activity of the homeobox gene tinman depends on CREB consensus binding sites in Drosophila

      GENESIS
    21. Smith, DM; Grasty, RC; Theodosiou, NA; Tabin, CJ; Nascone-Yoder, NM
      Evolutionary relationships between the amphibian, avian, and mammalian stomachs

      EVOLUTION & DEVELOPMENT
    22. Veraksa, A; Del Campo, M; McGinnis, W
      Developmental patterning genes and their conserved functions: From model organisms to humans

      MOLECULAR GENETICS AND METABOLISM
    23. Patterson, KD; Drysdale, TA; Krieg, PA
      Embryonic origins of spleen asymmetry

      DEVELOPMENT
    24. Higashi, M; Kobayashi, K; Iijima, M; Wakana, S; Horiuchi, M; Yasuda, T; Yoshida, G; Kanmura, Y; Saheki, T
      Genomic organization and mapping of mouse CDV (carnitine deficiency-associated gene expressed in ventricle)-1 and its related CDV-1R gene

      MAMMALIAN GENOME
    25. Schneider, A; Brand, T; Zweigerdt, R; Arnold, HH
      Targeted disruption of the Nkx3.1 gene in mice results in morphogenetic defects of minor salivary glands: parallels to glandular duct morphogenesis in prostate

      MECHANISMS OF DEVELOPMENT
    26. Zaffran, S; Das, G; Frasch, M
      The NK-2 homeobox gene scarecrow (scro) is expressed in pharynx, ventral nerve cord and brain of Drosophila embryos

      MECHANISMS OF DEVELOPMENT
    27. Newman, CS; Reecy, J; Grow, MW; Ni, K; Boettger, T; Kessel, M; Schwartz, RJ; Krieg, PA
      Transient cardiac expression of the tinman-family homeobox gene, XNkx2-10

      MECHANISMS OF DEVELOPMENT
    28. Tanaka, M; Yamasaki, N; Izumo, S
      Phenotypic characterization of the murine Nkx2.6 homeobox gene by gene targeting

      MOLECULAR AND CELLULAR BIOLOGY
    29. Kemp, PR; Metcalfe, JC
      Four isoforms of serum response factor that increase or inhibit smooth-muscle-specific promoter activity

      BIOCHEMICAL JOURNAL
    30. Lohr, JL; Yost, J
      Vertebrate model systems in the study of early heart development: Xenopus and zebrafish

      AMERICAN JOURNAL OF MEDICAL GENETICS
    31. Fossett, N; Zhang, Q; Gajewski, K; Choi, CY; Kim, Y; Schulz, RA
      The multitype zinc-finger protein U-shaped functions in heart cell specification in the Drosophila embryo

      PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
    32. Patten, M; Wang, WZ; Aminololama-Shakeri, S; Burson, M; Long, CS
      IL-1 beta increases abundance and activity of the negative transcriptionalregulator yin yang-1 (YY1) in neonatal rat cardiac myocytes

      JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY
    33. Kasahara, H; Lee, B; Schott, JJ; Benson, DW; Seidman, JG; Seidman, CE; Izumo, S
      Loss of function and inhibitory effects of human CSX/NKX2.5 homeoprotein mutations associated with congenital heart disease

      JOURNAL OF CLINICAL INVESTIGATION
    34. Carson, JA; Fillmore, RA; Schwartz, RJ; Zimmer, WE
      The smooth muscle gamma-actin gene promoter is a molecular target for the mouse bagpipe homologue, mNkx3-1, and serum response factor

      JOURNAL OF BIOLOGICAL CHEMISTRY
    35. Zhu, WD; Shiojima, I; Hiroi, Y; Zou, YZ; Akazawa, H; Mizukami, M; Toko, H; Yazaki, Y; Nagai, R; Komuro, I
      Functional analyses of three Csx/Nkx-2.5 mutations that cause human congenital heart disease

      JOURNAL OF BIOLOGICAL CHEMISTRY
    36. Hoggatt, AM; Kriegel, AM; Smith, AF; Herring, BP
      Hepatocyte nuclear factor-3 homologue 1 (HFH-1) represses transcription ofsmooth muscle-specific genes

      JOURNAL OF BIOLOGICAL CHEMISTRY
    37. Mericskay, M; Parlakian, A; Porteu, A; Dandre, F; Bonnet, J; Paulin, D; Li, ZL
      An overlapping CArG/octamer element is required for regulation of desmin gene transcription in arterial smooth muscle cells

      DEVELOPMENTAL BIOLOGY
    38. Wang, CC; Biben, C; Robb, L; Nassir, F; Barnett, L; Davidson, NO; Koentgen, F; Tarlinton, D; Harvey, RP
      Homeodomain factor Nkx2-3 controls regional expression of leukocyte homingcoreceptor MAdCAM-1 in specialized endothelial cells of the viscera

      DEVELOPMENTAL BIOLOGY
    39. Shi, YQ; Katsev, S; Cai, C; Evans, S
      BMP signaling is required for heart formation in vertebrates

      DEVELOPMENTAL BIOLOGY
    40. Griffin, KJP; Stoller, J; Gibson, M; Chen, S; Yelon, D; Stainier, DYR; Kimelman, D
      A conserved role for H15-related T-box transcription factors in zebrafish and Drosophila heart formation

      DEVELOPMENTAL BIOLOGY
    41. Raffin, M; Leong, LM; Rones, MS; Sparrow, D; Mohun, T; Mercola, M
      Subdivision of the cardiac Nkx2.5 expression domain into myogenic and nonmyogenic compartments

      DEVELOPMENTAL BIOLOGY
    42. Epstein, JA
      Developmental cardiology comes of age

      CIRCULATION RESEARCH
    43. Biben, C; Weber, R; Kesteven, S; Stanley, E; McDonald, L; Elliott, DA; Barnett, L; Koentgen, F; Robb, L; Feneley, M; Harvey, RP
      Cardiac septal and valvular dysmorphogenesis in mice heterozygous for mutations in the homeobox gene Nkx2-5

      CIRCULATION RESEARCH
    44. Mack, CP; Thompson, MM; Lawrenz-Smith, S; Owens, GK
      Smooth muscle alpha-actin CArG elements coordinate formation of a smooth muscle cell-selective, serum response factor-containing activation complex

      CIRCULATION RESEARCH
    45. Shiojima, I; Oka, T; Hiroi, Y; Nagai, R; Yazaki, Y; Komuro, I
      Transcriptional regulation of human cardiac homeobox gene CSX1

      BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
    46. Takimoto, E; Mizuno, T; Terasaki, F; Shimoyama, M; Honda, H; Shiojima, I; Hiroi, Y; Oka, T; Hayashi, D; Hirai, H; Kudoh, S; Toko, H; Kawamura, K; Nagai, R; Yazaki, Y; Komuro, I
      Up-regulation of natriuretic peptides in the ventricle of Csx/Nkx2-5 transgenic mice

      BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
    47. Frasch, M
      Intersecting signalling and transcriptional pathways in Drosophila heart specification

      SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
    48. Evans, SM
      Vertebrate tinman homologues and cardiac differentiation

      SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
    49. Charron, F; Nemer, M
      GATA transcription factors and cardiac development

      SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
    50. Li, S; MacLaughlin, FC; Fewell, JG; Li, Y; Mehta, V; French, MF; Nordstrom, JL; Coleman, M; Belagali, NS; Schwartz, RJ; Smith, LC
      Increased level and duration of expression in muscle by co-expression of atransactivator using plasmid systems

      GENE THERAPY
    51. Schulz, RA; Gajewski, K
      Ventral neuroblasts and the Heartless FGF receptor are required for musclefounder cell specification in Drosophila

      ONCOGENE
    52. Tanaka, M; Wechsler, SB; Lee, IW; Yamasaki, N; Lawitts, JA; Izumo, S
      Complex modular cis-acting elements regulate expression of the cardiac specifying homeobox gene Csx/Nkx2.5

      DEVELOPMENT
    53. Reecy, JM; Li, XY; Yamada, M; DeMayo, FJ; Newman, CS; Harvey, RP; Schwartz, RJ
      Identification of upstream regulatory regions in the heart-expressed homeobox gene Nkx2-5

      DEVELOPMENT
    54. Gajewski, K; Fossett, N; Molkentin, JD; Schulz, RA
      The zinc finger proteins Pannier and GATA4 function as cardiogenic factorsin Drosophila

      DEVELOPMENT
    55. Schwartz, RJ; Olson, EN
      Building the heart piece by piece: modularity of cis-elements regulating Nkx2-5 transcription

      DEVELOPMENT
    56. Ghatpande, S; Goswami, S; Mascareno, E; Siddiqui, MAQ
      Signal transduction and transcriptional adaptation in embryonic heart development and during myocardial hypertrophy

      MOLECULAR AND CELLULAR BIOCHEMISTRY
    57. Spencer, JA; Major, ML; Misra, RP
      Basic fibroblast growth factor activates serum response factor gene expression by multiple distinct signaling mechanisms

      MOLECULAR AND CELLULAR BIOLOGY
    58. Kasahara, H; Izumo, S
      Identification of the in vivo casein kinase II phosphorylation site withinthe homeodomain of the cardiac tissue-specifying homeobox gene product Csx/Nkx2.5

      MOLECULAR AND CELLULAR BIOLOGY
    59. Mantrova, EY; Schulz, RA; Hsu, T
      Oogenic function of the myogenic factor D-MEF2: Negative regulation of theDecapentaplegic receptor gene thick veins

      PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
    60. Kremser, T; Hasenpusch-Theil, K; Wagner, E; Buttgereit, D; Renkawitz-Pohl, R
      Expression of the beta 3 tubulin gene (beta Tub60D) in the visceral mesoderm of Drosophila is dependent on a complex enhancer that binds Tinman and UBX

      MOLECULAR AND GENERAL GENETICS
    61. Benson, DW; Silberbach, GM; Kavanaugh-McHugh, A; Cottrill, C; Zhang, YZ; Riggs, S; Smalls, O; Johnson, MC; Watson, MS; Seidman, JG; Seidman, CE; Plowden, J; Kugler, JD
      Mutations in the cardiac transcription factor NKX2.5 affect diverse cardiac developmental pathways

      JOURNAL OF CLINICAL INVESTIGATION
    62. Choi, CY; Lee, YM; Kim, YH; Park, T; Jeon, BH; Schulz, RA; Kim, Y
      The homeodomain transcription factor NK-4 acts as either a transcriptionalactivator or repressor and interacts with the p300 coactivator and the Groucho corepressor

      JOURNAL OF BIOLOGICAL CHEMISTRY
    63. Spencer, JA; Baron, MH; Olson, EN
      Cooperative transcriptional activation by serum response factor and the high mobility group protein SSRP1

      JOURNAL OF BIOLOGICAL CHEMISTRY
    64. Cheng, GM; Hagen, TP; Dawson, ML; Barnes, KV; Menick, DR
      The role of GATA, CArG, E-box, and a novel element in the regulation of cardiac expression of the Na+-Ca2+ exchanger gene

      JOURNAL OF BIOLOGICAL CHEMISTRY
    65. Shiojima, I; Komuro, I; Oka, T; Hiroi, Y; Mizuno, T; Takimoto, E; Monzen, K; Aikawa, R; Akazawa, H; Yamazaki, T; Kudoh, S; Yazaki, Y
      Context-dependent transcriptional cooperation mediated by cardiac transcription factors Csx/Nkx-2.5 and GATA-4

      JOURNAL OF BIOLOGICAL CHEMISTRY
    66. Jiang, YM; Drysdale, TA; Evans, T
      A role for GATA-4/5/6 in the regulation of Nkx2.5 expression with implications for patterning of the precardiac field

      DEVELOPMENTAL BIOLOGY
    67. Kremser, T; Gajewski, K; Schulz, RA; Renkawitz-Pohl, R
      Tinman regulates the transcription of the beta 3 tubulin gene (beta Tub60D) in the dorsal vessel of Drosophila

      DEVELOPMENTAL BIOLOGY
    68. Ding, W; Witte, MM; Scott, RE
      Transformation blocks differentiation-induced inhibition of serum responsefactor interactions with serum response elements

      CANCER RESEARCH
    69. SERBEDZIJA GN; CHEN JN; FISHMAN MC
      REGULATION IN THE HEART FIELD OF ZEBRAFISH

      Development
    70. MOORE LA; BROIHIER HT; VANDOREN M; LEHMANN R
      GONADAL MESODERM AND FAT-BODY INITIALLY FOLLOW A COMMON DEVELOPMENTALPATH IN DROSOPHILA

      Development
    71. RANGANAYAKULU G; ELLIOTT DA; HARVEY RP; OLSON EN
      DIVERGENT ROLES FOR NK-2 CLASS HOMEOBOX GENES IN CARDIOGENESIS IN FLIES AND MICE

      Development
    72. PABST O; HERBRAND H; ARNOLD HH
      NKX2-9 IS A NOVEL HOMEOBOX TRANSCRIPTION FACTOR WHICH DEMARCATES VENTRAL DOMAINS IN THE DEVELOPING MOUSE CNS

      Mechanisms of development
    73. LO PCH; FRASCH M
      BAGPIPE-DEPENDENT EXPRESSION OF VIMAR, A NOVEL ARMADILLO-REPEATS GENE, IN DROSOPHILA VISCERAL MESODERM

      Mechanisms of development
    74. XU X; YIN Z; HUDSON JB; FERGUSON EL; FRASCH M
      SMAD PROTEINS ACT IN COMBINATION WITH SYNERGISTIC AND ANTAGONISTIC REGULATORS TO TARGET DPP RESPONSES TO THE DROSOPHILA MESODERM

      Genes & development
    75. Weiss, JB; Von Ohlen, T; Mellerick, DM; Dressler, G; Doe, CQ; Scott, MP
      Dorsoventral patterning in the Drosophila central nervous system: the intermediate neuroblasts defective homeobox gene specifies intermediate column identity

      GENES & DEVELOPMENT
    76. JAGLA K; BELLARD M
      MECHANISMS OF CARDIOGENESIS AND SPECIFICATION OF CARDIAC LINEAGES - FROM DROSOPHILA TO VERTEBRATES

      MS. Medecine sciences
    77. THOMPSON JT; RACKLEY MS; OBRIEN TX
      UP-REGULATION OF THE CARDIAC HOMEOBOX GENE NKX2-5 (CSX) IN FELINE RIGHT-VENTRICULAR PRESSURE-OVERLOAD

      American journal of physiology. Heart and circulatory physiology
    78. LEE Y; SHIOI T; KASAHARA H; JOBE SM; WIESE RJ; MARKHAM BE; IZUMO S
      THE CARDIAC TISSUE-RESTRICTED HOMEOBOX PROTEIN CSX NKX2.5 PHYSICALLY ASSOCIATES WITH THE ZINC-FINGER PROTEIN GATA4 AND COOPERATIVELY ACTIVATES ATRIAL-NATRIURETIC-FACTOR GENE-EXPRESSION/

      Molecular and cellular biology
    79. SEPULVEDA JL; BELAGULI N; NIGAM V; CHEN CY; NEMER M; SCHWARTZ RJ
      GATA-4 AND NKX-2.5 COACTIVATE NKX-2 DNA-BINDING TARGETS - ROLE FOR REGULATING EARLY CARDIAC GENE-EXPRESSION

      Molecular and cellular biology
    80. BODMER R; VENKATESH TV
      HEART DEVELOPMENT IN DROSOPHILA AND VERTEBRATES - CONSERVATION OF MOLECULAR MECHANISMS

      Developmental genetics
    81. YIN ZZ; FRASCH M
      REGULATION AND FUNCTION OF TINMAN DURING DORSAL MESODERM INDUCTION AND HEART SPECIFICATION IN DROSOPHILA

      Developmental genetics
    82. NEWMAN CS; KRIEG PA
      TINMAN-RELATED GENES EXPRESSED DURING HEART DEVELOPMENT IN XENOPUS

      Developmental genetics
    83. ALEXANDER J; STAINIER DYR; YELON D
      SCREENING MOSAIC F1 FEMALES FOR MUTATIONS AFFECTING ZEBRAFISH HEART INDUCTION AND PATTERNING

      Developmental genetics
    84. SCHOTT JJ; BENSON DW; BASSON CT; PEASE W; SILBERBACH GM; MOAK JP; MARON BJ; SEIDMAN CE; SEIDMAN JG
      CONGENITAL HEART-DISEASE CAUSED BY MUTATIONS IN THE TRANSCRIPTION FACTOR NKX2-5

      Science
    85. HAUN C; ALEXANDER J; STAINIER DY; OKKEMA PG
      RESCUE OF CAENORHABDITIS-ELEGANS PHARYNGEAL DEVELOPMENT BY A VERTEBRATE HEART SPECIFICATION GENE

      Proceedings of the National Academy of Sciences of the United Statesof America
    86. Galvagni, F; Cartocci, E; Oliviero, S
      The dystrophin promoter is negatively regulated by YY1 in undifferentiatedmuscle cells

      JOURNAL OF BIOLOGICAL CHEMISTRY
    87. Grow, MW; Krieg, PA
      Tinman function is essential for vertebrate heart development: Eliminationof cardiac differentiation by dominant inhibitory mutants of the tinman-related genes, XNkx2-3 and XNkx2-5

      DEVELOPMENTAL BIOLOGY
    88. KASAHARA H; BARTUNKOVA S; SCHINKE M; TANAKA M; IZUMO S
      CARDIAC AND EXTRACARDIAC EXPRESSION OF CSX NKX2.5 HOMEODOMAIN PROTEIN/

      Circulation research
    89. PABST O; SCHNEIDER A; BRAND T; ARNOLD HH
      THE MOUSE NKX2-3 HOMEODOMAIN GENE IS EXPRESSED IN GUT MESENCHYME DURING PRENATAL AND POSTNATAL MOUSE DEVELOPMENT

      Developmental dynamics
    90. MOHUN T; SPARROW D
      EARLY STEPS IN VERTEBRATE CARDIOGENESIS

      Current opinion in genetics & development
    91. ZOU YM; EVANS S; CHEN J; KUO HC; HARVEY RP; CHIEN KR
      CARP, A CARDIAC ANKYRIN REPEAT PROTEIN, IS DOWNSTREAM IN THE NKX2-5 HOMEOBOX GENE PATHWAY

      Development
    92. YIN ZZ; XU XL; FRASCH M
      REGULATION OF THE TWIST TARGET GENE TINMAN BY MODULAR CIS-REGULATORY ELEMENTS DURING EARLY MESODERM DEVELOPMENT

      Development
    93. FISHER SA; SIWIK E; BRANELLEC D; WALSH K; WATANABE M
      FORCED EXPRESSION OF THE HOMEODOMAIN PROTEIN GAX INHIBITS CARDIOMYOCYTE PROLIFERATION AND PERTURBS HEART MORPHOGENESIS

      Development
    94. OKKEMA PG; HA EJ; HAUN C; CHEN W; FIRE A
      THE CAENORHABDITIS-ELEGANS NK-2 HOMEOBOX GENE CEH-22 ACTIVATES PHARYNGEAL MUSCLE GENE-EXPRESSION IN COMBINATION WITH PHA-1 AND IS REQUIRED FOR NORMAL PHARYNGEAL DEVELOPMENT

      Development
    95. JAGLA K; FRASCH M; JAGLA T; DRETZEN G; BELLARD F; BELLARD M
      LADYBIRD, A NEW COMPONENT OF THE CARDIOGENIC PATHWAY IN DROSOPHILA REQUIRED FOR DIVERSIFICATION OF HEART PRECURSORS

      Development
    96. RIECHMANN V; IRION U; WILSON R; GROSSKORTENHAUS R; LEPTIN M
      CONTROL OF CELL FATES AND SEGMENTATION IN THE DROSOPHILA MESODERM

      Development
    97. JAGLA K; JAGLA T; HEITZLER P; DRETZEN G; BELLARD F; BELLARD M
      LADYBIRD, A TANDEM OF HOMEOBOX GENES THAT MAINTAIN LATE WINGLESS EXPRESSION IN TERMINAL AND DORSAL EPIDERMIS OF THE DROSOPHILA EMBRYO

      Development
    98. BOETTGER T; STEIN S; KESSEL M
      THE CHICKEN NKX2.8 HOMEOBOX GENE - A NOVEL MEMBER OF THE NK-2 GENE FAMILY

      Development, genes and evolution
    99. NIKOLOVA M; CHEN XW; LUFKIN T
      NKX2.6 EXPRESSION IS TRANSIENTLY AND SPECIFICALLY RESTRICTED TO THE BRANCHIAL REGION OF PHARYNGEAL-STAGE MOUSE EMBRYOS

      Mechanisms of development
    100. BRAND T; ANDREE B; SCHNEIDER A; BUCHBERGER A; ARNOLD HH
      CHICKEN NKX2-8, A NOVEL HOMEOBOX GENE EXPRESSED DURING EARLY HEART AND FOREGUT DEVELOPMENT

      Mechanisms of development


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Documento generato il 18/01/21 alle ore 05:00:12