Fibulin-1 is required for morphogenesis of neural crest-derived structures.

[1]  A. Burns,et al.  Development of the neural crest-derived intrinsic innervation of the human lung. , 2008, American journal of respiratory cell and molecular biology.

[2]  A. Jin,et al.  CrkL plays a role in SDF-1-induced activation of the Raf-1/MEK/Erk pathway through Ras and Rac to mediate chemotactic signaling in hematopoietic cells. , 2006, Cellular signalling.

[3]  J. Kramer,et al.  Selective assembly of fibulin‐1 splice variants reveals distinct extracellular matrix networks and novel functions for perlecan/UNC‐52 splice variants , 2006, Developmental dynamics : an official publication of the American Association of Anatomists.

[4]  M. Iruela-Arispe,et al.  Proteolytic cleavage of versican during cardiac cushion morphogenesis , 2006, Developmental dynamics : an official publication of the American Association of Anatomists.

[5]  L. Sommer,et al.  Versican V0 and V1 Guide Migratory Neural Crest Cells* , 2006, Journal of Biological Chemistry.

[6]  M. Bronner‐Fraser,et al.  Abnormalities in neural crest cell migration in laminin α5 mutant mice , 2006 .

[7]  M. Bronner‐Fraser,et al.  Abnormalities in neural crest cell migration in laminin alpha5 mutant mice. , 2006, Developmental biology.

[8]  A. Moon,et al.  Crkl deficiency disrupts Fgf8 signaling in a mouse model of 22q11 deletion syndromes. , 2006, Developmental cell.

[9]  E. Dodou,et al.  The right ventricle, outflow tract, and ventricular septum comprise a restricted expression domain within the secondary/anterior heart field. , 2005, Developmental biology.

[10]  S. Prucka,et al.  Fate maps of neural crest and mesoderm in the mammalian eye. , 2005, Investigative ophthalmology & visual science.

[11]  K. Lyons,et al.  Fibulin-1 Acts as a Cofactor for the Matrix Metalloprotease ADAMTS-1* , 2005, Journal of Biological Chemistry.

[12]  Y. Chai,et al.  Combined deficiencies of Msx1 and Msx2 cause impaired patterning and survival of the cranial neural crest , 2005, Development.

[13]  N. Byrd,et al.  Loss of Gbx2 results in neural crest cell patterning and pharyngeal arch artery defects in the mouse embryo. , 2005, Developmental biology.

[14]  Robert P. Thompson,et al.  Confocal Imaging of the Embryonic Heart: How Deep? , 2005, Microscopy and Microanalysis.

[15]  K. Nishiwaki,et al.  A Fibulin-1 Homolog Interacts with an ADAM Protease that Controls Cell Migration in C. elegans , 2004, Current Biology.

[16]  Kyung Won Kim,et al.  GON-1 and Fibulin Have Antagonistic Roles in Control of Organ Shape , 2004, Current Biology.

[17]  T. Pietri,et al.  Conditional β1-integrin gene deletion in neural crest cells causes severe developmental alterations of the peripheral nervous system , 2004 .

[18]  Joe C. Adams,et al.  Full spectrum of malformations in velo-cardio-facial syndrome/DiGeorge syndrome mouse models by altering Tbx1 dosage. , 2004, Human molecular genetics.

[19]  A. Baldini DiGeorge syndrome: an update , 2004, Current opinion in cardiology.

[20]  T. Tsuda,et al.  Fibulins in development and heritable disease. , 2004, Birth defects research. Part C, Embryo today : reviews.

[21]  K. Horiuchi,et al.  Essential Role for ADAM19 in Cardiovascular Morphogenesis , 2004, Molecular and Cellular Biology.

[22]  T. Pietri,et al.  Conditional beta1-integrin gene deletion in neural crest cells causes severe developmental alterations of the peripheral nervous system. , 2004, Development.

[23]  M. Kirby,et al.  Development of cranial nerves in the chick embryo with special reference to the alterations of cardiac branches after ablation of the cardiac neural crest , 2004, Anatomy and Embryology.

[24]  L. Greene,et al.  Fibulins: physiological and disease perspectives , 2003, EMBO reports.

[25]  M. Okura,et al.  Translocation of CrkL to Focal Adhesions Mediates Integrin-Induced Migration Downstream of Src Family Kinases , 2003, Molecular and Cellular Biology.

[26]  M. Kirby,et al.  Neural crest and cardiovascular development: a 20-year perspective. , 2003, Birth defects research. Part C, Embryo today : reviews.

[27]  Conrad C. Huang,et al.  BayGenomics: a resource of insertional mutations in mouse embryonic stem cells , 2003, Nucleic Acids Res..

[28]  M. Capecchi,et al.  An Fgf8 mouse mutant phenocopies human 22q11 deletion syndrome. , 2002, Development.

[29]  K. Yamamura,et al.  Fgf8 is required for pharyngeal arch and cardiovascular development in the mouse. , 2002, Development.

[30]  J. Chimal-Monroy,et al.  Expression of Sox8, Sox9 and Sox10 in the developing valves and autonomic nerves of the embryonic heart , 2002, Mechanisms of Development.

[31]  R. Timpl,et al.  Gene Structure and Functional Analysis of the Mouse Nidogen-2 Gene: Nidogen-2 Is Not Essential for Basement Membrane Formation in Mice , 2002, Molecular and Cellular Biology.

[32]  M. Kirby,et al.  PERSPECTIVES IN PEDIATRIC PATHOLOGY Molecular Embryogenesis of the Heart , 2002 .

[33]  R. Fässler,et al.  Hyperplastic Conotruncal Endocardial Cushions and Transposition of Great Arteries in Perlecan-Null Mice , 2002, Circulation research.

[34]  T. M. Yelbuz,et al.  Shortened Outflow Tract Leads to Altered Cardiac Looping After Neural Crest Ablation , 2002, Circulation.

[35]  H. Kurz,et al.  Neuroectodermal origin of brain pericytes and vascular smooth muscle cells , 2002, The Journal of comparative neurology.

[36]  Joanna S Brooke,et al.  Latent transforming growth factor β-binding protein-3 and fibulin-1C interact with the extracellular domain of the heparin-binding EGF-like growth factor precursor , 2002, BMC Cell Biology.

[37]  A. Czirók,et al.  Fibulin-1 suppression of fibronectin-regulated cell adhesion and motility. , 2001, Journal of cell science.

[38]  M. Takeichi,et al.  Hoxa3 regulates integration of glossopharyngeal nerve precursor cells. , 2001, Developmental biology.

[39]  R. Timpl,et al.  Perinatal Lethality and Endothelial Cell Abnormalities in Several Vessel Compartments of Fibulin-1-Deficient Mice , 2001, Molecular and Cellular Biology.

[40]  R. Markwald,et al.  The outflow tract of the heart is recruited from a novel heart-forming field. , 2001, Developmental biology.

[41]  M. Kirby,et al.  Conotruncal myocardium arises from a secondary heart field. , 2001, Development.

[42]  H. Etchevers,et al.  The cephalic neural crest provides pericytes and smooth muscle cells to all blood vessels of the face and forebrain. , 2001, Development.

[43]  B. Druker,et al.  Mice lacking the homologue of the human 22q11.2 gene CRKL phenocopy neurocristopathies of DiGeorge syndrome , 2001, Nature Genetics.

[44]  A. Joyner,et al.  EN and GBX2 play essential roles downstream of FGF8 in patterning the mouse mid/hindbrain region. , 2001, Development.

[45]  R. Perris,et al.  Role of the extracellular matrix during neural crest cell migration , 2000, Mechanisms of Development.

[46]  A. Sonnenberg,et al.  Integrin binding specificity of laminin-10/11: laminin-10/11 are recognized by alpha 3 beta 1, alpha 6 beta 1 and alpha 6 beta 4 integrins. , 2000, Journal of cell science.

[47]  B He,et al.  The C-terminal domain of the regulatory protein NOVH is sufficient to promote interaction with fibulin 1C: a clue for a role of NOVH in cell-adhesion signaling. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[48]  H. Rochefort,et al.  Estradiol and fibulin‐1 inhibit motility of human ovarian‐ and breast‐cancer cells induced by fibronectin , 1998, International journal of cancer.

[49]  A. Copp,et al.  Over-expression of the chondroitin sulphate proteoglycan versican is associated with defective neural crest migration in the Pax3 mutant mouse (splotch) , 1997, Mechanisms of Development.

[50]  A. Copp,et al.  Development of a lethal congenital heart defect in the splotch (Pax3) mutant mouse. , 1997, Cardiovascular research.

[51]  J. Mccormick,et al.  Suppression of anchorage-independent growth and matrigel invasion and delayed tumor formation by elevated expression of fibulin-1D in human fibrosarcoma-derived cell lines , 1997, Oncogene.

[52]  M. Mattei,et al.  Human fibulin-1D: molecular cloning, expression and similarity with S1-5 protein, a new member of the fibulin gene family. , 1997, Matrix biology : journal of the International Society for Matrix Biology.

[53]  D. Riddle,et al.  Extracellular Matrix -- C. elegans II , 1997 .

[54]  D. Bouchey,et al.  Fibulin‐1, vitronectin, and fibronectin expression during avian cardiac valve and septa development , 1996, The Anatomical record.

[55]  R. Beddington,et al.  Capturing genes encoding membrane and secreted proteins important for mouse development. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[56]  T. Sasaki,et al.  Structural characterization of two variants of fibulin-1 that differ in nidogen affinity. , 1995, Journal of molecular biology.

[57]  T. Sasaki,et al.  Extracellular matrix protein fibulin-2 is expressed in the embryonic endocardial cushion tissue and is a prominent component of valves in adult heart. , 1995, Developmental biology.

[58]  X. Chen,et al.  Localization of the human gene for fibulin-1 (FBLN1) to chromosome band 22q13.3. , 1995, Cytogenetics and cell genetics.

[59]  M. Bronner‐Fraser Mechanisms of neural crest cell migration , 1993, BioEssays : news and reviews in molecular, cellular and developmental biology.

[60]  R. Timpl,et al.  The extracellular matrix glycoproteins BM-90 and tenascin are expressed in the mesenchyme at sites of endothelial-mesenchymal conversion in the embryonic mouse heart. , 1993, Differentiation; research in biological diversity.

[61]  D. Strickland,et al.  Fibulin binds to itself and to the carboxyl-terminal heparin-binding region of fibronectin. , 1992, Journal of Biological Chemistry.

[62]  S. Spence,et al.  Fibulin is localized at sites of epithelial-mesenchymal transitions in the early avian embryo. , 1992, Developmental biology.

[63]  M. Capecchi,et al.  Regionally restricted developmental defects resulting from targeted disruption of the mouse homeobox gene hox-1.5 , 1991, Nature.

[64]  M. Somerman,et al.  Fibulin is an extracellular matrix and plasma glycoprotein with repeated domain structure , 1990, The Journal of cell biology.

[65]  M. Kirby,et al.  Alteration of early vascular development after ablation of cranial neural crest , 1989, The Anatomical Record.

[66]  M. Kirby,et al.  Effect of neural crest ablation on development of the heart and arch arteries in the chick. , 1987, The American journal of anatomy.

[67]  M. Kirby,et al.  Dependence of thymus development on derivatives of the neural crest. , 1984, Science.

[68]  D. Noden,et al.  Contributions of placodal and neural crest cells to avian cranial peripheral ganglia. , 1983, The American journal of anatomy.

[69]  C A Kimmel,et al.  A rapid procedure for routine double staining of cartilage and bone in fetal and adult animals. , 1981, Stain technology.