A comparative study of Pointed and Yan expression reveals new complexity to the transcriptional networks downstream of receptor tyrosine kinase signaling.

[1]  B. Shilo,et al.  Sequential activation of ETS proteins provides a sustained transcriptional response to EGFR signaling , 2013, Development.

[2]  N. Perrimon,et al.  Receptor tyrosine kinases in Drosophila development. , 2013, Cold Spring Harbor perspectives in biology.

[3]  S. Luschnig,et al.  The ETS domain transcriptional repressor Anterior open inhibits MAP kinase and Wingless signaling to couple tracheal cell fate with branch identity , 2013, Development.

[4]  K. White,et al.  The Relationship Between Long-Range Chromatin Occupancy and Polymerization of the Drosophila ETS Family Transcriptional Repressor Yan , 2013, Genetics.

[5]  Z. Paroush,et al.  The Capicua repressor – a general sensor of RTK signaling in development and disease , 2012, Journal of Cell Science.

[6]  S. Sprecher,et al.  Genetic and developmental mechanisms underlying the formation of the Drosophila compound eye , 2012, Developmental dynamics : an official publication of the American Association of Anatomists.

[7]  Lily S. Cheung,et al.  Pattern formation by a moving morphogen source , 2011, Physical biology.

[8]  Kwanghun Chung,et al.  Gene regulation by MAPK substrate competition. , 2010, Developmental cell.

[9]  T. Tabata,et al.  Coordinated sequential action of EGFR and Notch signaling pathways regulates proneural wave progression in the Drosophila optic lobe , 2010, Development.

[10]  Aaron R Dinner,et al.  Modeling bistable cell-fate choices in the Drosophila eye: qualitative and quantitative perspectives , 2010, Development.

[11]  Yoosik Kim,et al.  MAPK Substrate Competition Integrates Patterning Signals in the Drosophila Embryo , 2010, Current Biology.

[12]  Lily S. Cheung,et al.  Feedback control of the EGFR signaling gradient: superposition of domain-splitting events in Drosophila oogenesis , 2009, Development.

[13]  P. Kerr,et al.  Graded Egfr activity patterns the Drosophila eggshell independently of autocrine feedback , 2009, Development.

[14]  Z. Paroush,et al.  Multiple RTK pathways downregulate Groucho-mediated repression in Drosophila embryogenesis , 2008, Development.

[15]  S. Blair,et al.  Wing vein patterning in Drosophila and the analysis of intercellular signaling. , 2007, Annual review of cell and developmental biology.

[16]  Hugo J. Bellen,et al.  P[acman]: A BAC Transgenic Platform for Targeted Insertion of Large DNA Fragments in D. melanogaster , 2006, Science.

[17]  R. Bodmer,et al.  Hedgehog and RAS pathways cooperate in the anterior-posterior specification and positioning of cardiac progenitor cells. , 2006, Developmental biology.

[18]  Naama Barkai,et al.  Threshold responses to morphogen gradients by zero-order ultrasensitivity , 2005, Molecular systems biology.

[19]  N. Perrimon,et al.  Function of the ETS transcription factor Yan in border cell migration , 2005, Development.

[20]  J. Couso,et al.  Dynamic EGFR‐Ras signalling in Drosophila leg development , 2005, Developmental dynamics : an official publication of the American Association of Anatomists.

[21]  D. Andrew,et al.  A molecular link between FGF and Dpp signaling in branch-specific migration of the Drosophila trachea. , 2005, Developmental biology.

[22]  R. Bodmer,et al.  Neuromancer Tbx20-related genes (H15/midline) promote cell fate specification and morphogenesis of the Drosophila heart. , 2005, Developmental biology.

[23]  D. Bilder,et al.  Mass transit: Epithelial morphogenesis in the Drosophila egg chamber , 2005, Developmental dynamics : an official publication of the American Association of Anatomists.

[24]  M. Metzstein,et al.  Branching morphogenesis of the Drosophila tracheal system. , 2003, Annual review of cell and developmental biology.

[25]  V. Hartenstein,et al.  Antagonistic relationship between Dpp and EGFR signaling in Drosophila head patterning. , 2003, Developmental biology.

[26]  K. Moses,et al.  Nuclear translocation of activated MAP kinase is developmentally regulated in the developing Drosophila eye , 2003, Development.

[27]  A. Jarman,et al.  Echinoid limits R8 photoreceptor specification by inhibiting inappropriate EGF receptor signalling within R8 equivalence groups , 2003, Development.

[28]  V. Dammai,et al.  EGF-dependent and independent activation of MAP kinase during Drosophila oogenesis. , 2003, The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology.

[29]  V. Hartenstein,et al.  Interaction between EGFR signaling and DE-cadherin during nervous system morphogenesis. , 2002, Development.

[30]  K. Saigo,et al.  Ligand-dependent activation of breathless FGF receptor gene in Drosophila developing trachea , 2002, Mechanisms of Development.

[31]  E. Ramos,et al.  Notch Activation of yan Expression Is Antagonized by RTK/Pointed Signaling in the Drosophila Eye , 2002, Current Biology.

[32]  G. Jiménez,et al.  EGFR signalling inhibits Capicua-dependent repression during specification of Drosophila wing veins. , 2002, Development.

[33]  R. Carthew,et al.  Overlapping Activators and Repressors Delimit Transcriptional Response to Receptor Tyrosine Kinase Signals in the Drosophila Eye , 2000, Cell.

[34]  Stephen S. Gisselbrecht,et al.  Ras Pathway Specificity Is Determined by the Integration of Multiple Signal-Activated and Tissue-Restricted Transcription Factors , 2000, Cell.

[35]  N. Perrimon,et al.  A temporal switch in DER signaling controls the specification and differentiation of veins and interveins in the Drosophila wing. , 1999, Development.

[36]  G. Grumbling,et al.  Tissue-specific regulation of vein/EGF receptor signaling in Drosophila. , 1999, Developmental biology.

[37]  B. Shilo,et al.  Sprouty is a general inhibitor of receptor tyrosine kinase signaling. , 1999, Development.

[38]  B. Biehs,et al.  rhomboid and Star interact synergistically to promote EGFR/MAPK signaling during Drosophila wing vein development. , 1999, Development.

[39]  N. Perrimon,et al.  The Transmembrane Molecule Kekkon 1 Acts in a Feedback Loop to Negatively Regulate the Activity of the Drosophila EGF Receptor during Oogenesis , 1999, Cell.

[40]  Z. Lai,et al.  The yan gene is highly conserved in Drosophila and its expression suggests a complex role throughout development , 1999, Development Genes and Evolution.

[41]  V. Hartenstein,et al.  EGFR signaling is required for the differentiation and maintenance of neural progenitors along the dorsal midline of the Drosophila embryonic head. , 1998, Development.

[42]  D. St Johnston,et al.  Patterning of the follicle cell epithelium along the anterior-posterior axis during Drosophila oogenesis. , 1998, Development.

[43]  B. Shilo,et al.  MAP kinase in situ activation atlas during Drosophila embryogenesis. , 1997, Development.

[44]  B. Shilo,et al.  In situ activation pattern of Drosophila EGF receptor pathway during development. , 1997, Science.

[45]  J. S. Britton,et al.  Pointed, an ETS domain transcription factor, negatively regulates the EGF receptor pathway in Drosophila oogenesis. , 1996, Development.

[46]  B. Shilo,et al.  EGF receptor signaling induces pointed P1 transcription and inactivates Yan protein in the Drosophila embryonic ventral ectoderm. , 1996, Development.

[47]  N. Hacohen,et al.  Genetic control of epithelial tube fusion during Drosophila tracheal development. , 1996, Development.

[48]  N E Baker,et al.  The scabrous gene encodes a secreted glycoprotein dimer and regulates proneural development in Drosophila eyes , 1996, Molecular and cellular biology.

[49]  V. Hartenstein,et al.  The role of yan in mediating the choice between cell division and differentiation. , 1995, Development.

[50]  Y Sun,et al.  Role of the proneural gene, atonal, in formation of Drosophila chordotonal organs and photoreceptors. , 1995, Development.

[51]  D. Johnston,et al.  Polarization of both major body axes in Drosophila by gurken-torpedo signalling , 1995, Nature.

[52]  T. Schüpbach,et al.  cornichon and the EGF receptor signaling process are necessary for both anterior-posterior and dorsal-ventral pattern formation in Drosophila , 1995, Cell.

[53]  Gerald M Rubin,et al.  Yan functions as a general inhibitor of differentiation and is negatively regulated by activation of the Ras1/MAPK pathway , 1995, Cell.

[54]  Ernst Hafen,et al.  The ETS domain protein Pointed-P2 is a target of MAP kinase in the Sevenless signal transduction pathway , 1994, Nature.

[55]  Gerald M. Rubin,et al.  The activities of two Ets-related transcription factors required for drosophila eye development are modulated by the Ras/MAPK pathway , 1994, Cell.

[56]  Yuh Nung Jan,et al.  atonal is the proneural gene for Drosophila photoreceptors , 1994, Nature.

[57]  C. Klämbt,et al.  Genetic dissection of pointed, a Drosophila gene encoding two ETS-related proteins. , 1993, Genetics.

[58]  E. Bier,et al.  The Drosophila rhomboid gene mediates the localized formation of wing veins and interacts genetically with components of the EGF-R signaling pathway. , 1993, Genes & development.

[59]  S. Zipursky,et al.  Induction of cell fate in the Drosophila retina: the bride of sevenless protein is predicted to contain a large extracellular domain and seven transmembrane segments. , 1990, Genes & development.

[60]  C. Nüsslein-Volhard,et al.  Mutations affecting the pattern of the larval cuticle inDrosophila melanogaster , 1984, Wilhelm Roux's archives of developmental biology.

[61]  R. Mann,et al.  A dynamic network of morphogens and transcription factors patterns the fly leg. , 2012, Current Topics in Developmental Biology.

[62]  Nobuyuki Itoh,et al.  Tube or not tube: remodeling epithelial tissues by branching morphogenesis. , 2003, Developmental cell.

[63]  B. Hogan,et al.  Organogenesis: Molecular Mechanisms Of Tubulogenesis , 2002, Nature Reviews Genetics.

[64]  B. Shilo,et al.  Branching morphogenesis in the Drosophila tracheal system. , 1997, Cold Spring Harbor symposia on quantitative biology.

[65]  C. Klämbt,et al.  The Drosophila gene pointed encodes two ETS-like proteins which are involved in the development of the midline glial cells. , 1993, Development.