Epithelial cell polarity and cell junctions in Drosophila.

The polarized architecture of epithelial cells and tissues is a fundamental determinant of animal anatomy and physiology. Recent progress made in the genetic and molecular analysis of epithelial polarity and cellular junctions in Drosophila has led to the most detailed understanding of these processes in a whole animal model system to date. Asymmetry of the plasma membrane and the differentiation of membrane domains and cellular junctions are controlled by protein complexes that assemble around transmembrane proteins such as DE-cadherin, Crumbs, and Neurexin IV, or other cytoplasmic protein complexes that associate with the plasma membrane. Much remains to be learned of how these complexes assemble, establish their polarized distribution, and contribute to the asymmetric organization of epithelial cells.

[1]  Calvin B. Bridges,et al.  The mutants of drosophila melanogaster , 1944 .

[2]  G. Palade,et al.  JUNCTIONAL COMPLEXES IN VARIOUS EPITHELIA , 1963, The Journal of cell biology.

[3]  A. Jacobson,et al.  Nuclear elongation and cytokinesis in Drosophila montana. , 1971, Developmental biology.

[4]  F. Turner,et al.  Scanning electron microscopy of Drosophila embryogenesis. 1. The structure of the egg envelopes and the formation of the cellular blastoderm. , 1976, Developmental biology.

[5]  N. Lane,et al.  Intercellular junctions in the central nervous system of insects. , 1977, Journal of cell science.

[6]  E. Gateff Malignant neoplasms of genetic origin in Drosophila melanogaster. , 1978, Science.

[7]  M H Ellisman,et al.  Rows of dimeric-particles within the axolemma and juxtaposed particles within glia, incorporated into a new model for the paranodal glial- axonal junction at the node of Ranvier , 1980, The Journal of cell biology.

[8]  C. Noirot,et al.  Septate and scalariform junctions in arthropods. , 1980, International review of cytology.

[9]  N. Lane,et al.  Definitive Evidence for the existence of tight junctions in invertebrates , 1980, The Journal of cell biology.

[10]  B. Alberts,et al.  Studies of nuclear and cytoplasmic behaviour during the five mitotic cycles that precede gastrulation in Drosophila embryogenesis. , 1983, Journal of cell science.

[11]  Richard A. Anderson,et al.  Glycophorin is linked by band 4.1 protein to the human erythrocyte membrane skeleton , 1984, Nature.

[12]  W. McGinnis,et al.  Molecular cloning of lethal(2)giant larvae, a recessive oncogene of Drosophila melanogaster. , 1985, The EMBO journal.

[13]  J. Siliciano,et al.  Identification of ZO-1: a high molecular weight polypeptide associated with the tight junction (zonula occludens) in a variety of epithelia , 1986, The Journal of cell biology.

[14]  G. Rubin,et al.  Localization of the sevenless protein, a putative receptor for positional information, in the eye imaginal disc of Drosophila , 1987, Cell.

[15]  N. Perrimon,et al.  The maternal effect of lethal(1)discs-large-1: a recessive oncogene of Drosophila melanogaster. , 1988, Developmental biology.

[16]  E. Rodriguez-Boulan,et al.  Morphogenesis of the polarized epithelial cell phenotype. , 1989, Science.

[17]  P. Bryant,et al.  Molecular cloning of the lethal(1)discs large-1 oncogene of Drosophila. , 1989, Developmental biology.

[18]  H. McNeill,et al.  Novel function of the cell adhesion molecule uvomorulin as an inducer of cell surface polarity , 1990, Cell.

[19]  A. Vincent,et al.  The serendipity alpha gene encodes a membrane-associated protein required for the cellularization of the Drosophila embryo. , 1990, Genes & development.

[20]  U. Tepass,et al.  crumbs encodes an EGF-like protein expressed on apical membranes of Drosophila epithelial cells and required for organization of epithelia , 1990, Cell.

[21]  E. Wieschaus,et al.  Zygotic activity of the nullo locus is required to stabilize the actin-myosin network during cellularization in Drosophila. , 1990, Development.

[22]  A. Wandinger-Ness,et al.  Polarized sorting in epithelia , 1990, Cell.

[23]  S. Artavanis-Tsakonas,et al.  Complex cellular and subcellular regulation of notch expression during embryonic and imaginal development of Drosophila: implications for notch function , 1991, The Journal of cell biology.

[24]  N. Lane Morphology of Glial Blood‐Brain Barriers , 1991, Annals of the New York Academy of Sciences.

[25]  Peter J. Bryant,et al.  The discs-large tumor suppressor gene of Drosophila encodes a guanylate kinase homolog localized at septate junctions , 1991, Cell.

[26]  L. A. Abbott,et al.  Epithelial polarity and cell separation in the neoplastic l(1)dlg-1 mutant of Drosophila , 1992, Mechanisms of Development.

[27]  S. Zipursky,et al.  The bride of sevenless and sevenless interaction: Internalization of a transmembrane ligand , 1992, Cell.

[28]  B. Shilo,et al.  Localization of DER and the pattern of cell divisions in wild-type and Ellipse eye imaginal discs. , 1992, Developmental biology.

[29]  E. Wieschaus,et al.  bottleneck acts as a regulator of the microfilament network governing cellularization of the Drosophila embryo , 1993, Cell.

[30]  M. Peifer,et al.  The product of the Drosophila segment polarity gene armadillo is part of a multi-protein complex resembling the vertebrate adherens junction. , 1993, Journal of cell science.

[31]  U. Tepass,et al.  Crumbs and stardust act in a genetic pathway that controls the organization of epithelia in Drosophila melanogaster. , 1993, Developmental biology.

[32]  E. Wieschaus,et al.  Functional elements of the cytoskeleton in the early Drosophila embryo. , 1993, Annual review of cell biology.

[33]  E. Wieschaus,et al.  A role for the Drosophila segment polarity gene armadillo in cell adhesion and cytoskeletal integrity during oogenesis. , 1993, Development.

[34]  T. Uemura,et al.  Identification of a Drosophila homologue of alpha-catenin and its association with the armadillo protein , 1993, The Journal of cell biology.

[35]  D. Branton,et al.  Cell shape and interaction defects in alpha-spectrin mutants of Drosophila melanogaster , 1993, The Journal of cell biology.

[36]  E. Knust,et al.  CRUMBS is involved in the control of apical protein targeting during Drosophila epithelial development , 1993, Mechanisms of Development.

[37]  S. Artavanis-Tsakonas,et al.  A Drosophila homologue of membrane-skeleton protein 4.1 is associated with septate junctions and is encoded by the coracle gene. , 1994, Development.

[38]  E. Wieschaus,et al.  The nullo protein is a component of the actin-myosin network that mediates cellularization in Drosophila melanogaster embryos. , 1994, Journal of cell science.

[39]  B. Neumann,et al.  The Drosophila lethal(2)giant larvae tumor suppressor protein forms homo-oligomers and is associated with nonmuscle myosin II heavy chain , 1994, The Journal of cell biology.

[40]  D. Kiehart,et al.  Beta heavy-spectrin has a restricted tissue and subcellular distribution during Drosophila embryogenesis. , 1994, Development.

[41]  D. Branton,et al.  In vitro binding studies suggest a membrane-associated complex between erythroid p55, protein 4.1, and glycophorin C. , 1994, The Journal of biological chemistry.

[42]  I. Raška,et al.  The Drosophila lethal(2)giant larvae tumor suppressor protein is a component of the cytoskeleton , 1994, The Journal of cell biology.

[43]  V. Hartenstein,et al.  The development of cellular junctions in the Drosophila embryo. , 1994, Developmental biology.

[44]  A. Kawashima,et al.  Structural diversity of band 4.1 superfamily members. , 1994, Journal of cell science.

[45]  V. Hartenstein,et al.  Epithelium formation in the Drosophila midgut depends on the interaction of endoderm and mesoderm. , 1994, Development.

[46]  T. Uemura,et al.  A Drosophila homolog of cadherin associated with armadillo and essential for embryonic cell-cell adhesion. , 1994, Developmental biology.

[47]  J. Yu,et al.  Ankyrin and beta-spectrin accumulate independently of alpha-spectrin in Drosophila. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[48]  R. Ueda,et al.  canoe encodes a novel protein containing a GLGF/DHR motif and functions with Notch and scabrous in common developmental pathways in Drosophila. , 1995, Genes & development.

[49]  A. Poustka,et al.  A human homologue of the Drosophila tumour suppressor gene l(2)gl maps to 17p11.2-12 and codes for a cytoskeletal protein that associates with nonmuscle myosin II heavy chain. , 1995, Oncogene.

[50]  E. Knust,et al.  Expression of crumbs confers apical character on plasma membrane domains of ectodermal epithelia of drosophila , 1995, Cell.

[51]  B. Alberts,et al.  Anillin, a contractile ring protein that cycles from the nucleus to the cell cortex , 1995, The Journal of cell biology.

[52]  S. Singer,et al.  Cell membrane formation during the cellularization of the syncytial blastoderm of Drosophila. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[53]  Kendal Broadie,et al.  Gliotactin, a novel transmembrane protein on peripheral glia, is required to form the blood-nerve barrier in drosophila , 1995, Cell.

[54]  R. Brent,et al.  APC binds to the novel protein EB1. , 1995, Cancer research.

[55]  R. Fehon,et al.  Distinct cellular and subcellular patterns of expression imply distinct functions for the Drosophila homologues of moesin and the neurofibromatosis 2 tumor suppressor, merlin , 1996, The Journal of cell biology.

[56]  R. Ueda,et al.  The Drosophila tamou gene, a component of the activating pathway of extramacrochaetae expression, encodes a protein homologous to mammalian cell-cell junction-associated protein ZO-1. , 1996, Genes & development.

[57]  V. Hartenstein,et al.  shotgun encodes Drosophila E-cadherin and is preferentially required during cell rearrangement in the neurectoderm and other morphogenetically active epithelia. , 1996, Genes & development.

[58]  D. Drubin,et al.  Origins of Cell Polarity , 1996, Cell.

[59]  T. Uemura,et al.  Zygotic Drosophila E-cadherin expression is required for processes of dynamic epithelial cell rearrangement in the Drosophila embryo. , 1996, Genes & development.

[60]  Andreas Prokop,et al.  A Drosophila Neurexin Is Required for Septate Junction and Blood-Nerve Barrier Formation and Function , 1996, Cell.

[61]  M. Peifer,et al.  Armadillo is required for adherens junction assembly, cell polarity, and morphogenesis during Drosophila embryogenesis , 1996, The Journal of cell biology.

[62]  C. X. Zhang,et al.  Isolation and characterization of a Drosophila gene essential for early embryonic development and formation of cortical cleavage furrows , 1996, The Journal of cell biology.

[63]  E. Wieschaus,et al.  armadillo, bazooka, and stardust are critical for early stages in formation of the zonula adherens and maintenance of the polarized blastoderm epithelium in Drosophila , 1996, The Journal of cell biology.

[64]  M. Peifer,et al.  Drosophila α-Catenin and E-cadherin Bind to Distinct Regions of Drosophila Armadillo* , 1996, The Journal of Biological Chemistry.

[65]  P. Bryant,et al.  Dlg protein is required for junction structure, cell polarity, and proliferation control in Drosophila epithelia , 1996, The Journal of cell biology.

[66]  U. Tepass,et al.  Crumbs, a component of the apical membrane, is required for zonula adherens formation in primary epithelia of Drosophila. , 1996, Developmental biology.

[67]  E. Rodriguez-Boulan,et al.  Transport of vesicular stomatitis virus G protein to the cell surface is signal mediated in polarized and nonpolarized cells , 1996, The Journal of cell biology.

[68]  Y. Jan,et al.  Role of inscuteable in orienting asymmetric cell divisions in Drosophila , 1996, Nature.

[69]  M. Roth,et al.  Different biosynthetic transport routes to the plasma membrane in BHK and CHO cells , 1996, The Journal of cell biology.

[70]  E. Knust,et al.  The Drosophila genes crumbs and stardust are involved in the biogenesis of adherens junctions. , 1996, Development.

[71]  M. Peifer,et al.  Drosophila alpha-catenin and E-cadherin bind to distinct regions of Drosophila Armadillo. , 1996, The Journal of biological chemistry.

[72]  D. Branton,et al.  Two independent domains of hDlg are sufficient for subcellular targeting: the PDZ1-2 conformational unit and an alternatively spliced domain , 1996, The Journal of cell biology.

[73]  D. Yamamoto,et al.  Regulation of cone cell formation by Canoe and Ras in the developing Drosophila eye. , 1997, Development.

[74]  S. D. Carlson,et al.  Ultrastructure and blood–nerve barrier of chordotonal organs in the Drosophila embryo , 1997, Journal of neurocytology.

[75]  R. Burgess,et al.  The Synaptic Protein Syntaxin1 Is Required for Cellularization of Drosophila Embryos , 1997, The Journal of cell biology.

[76]  U. Tepass Epithelial differentiation in Drosophila , 1997, BioEssays : news and reviews in molecular, cellular and developmental biology.

[77]  T. Uemura,et al.  Phenotypic analysis of null mutants for DE‐cadherin and Armadillo in Drosophila ovaries reveals distinct aspects of their functions in cell adhesion and cytoskeletal organization , 1997, Genes to cells : devoted to molecular & cellular mechanisms.

[78]  E. Peles,et al.  The Axonal Membrane Protein Caspr, a Homologue of Neurexin IV, Is a Component of the Septate-like Paranodal Junctions That Assemble during Myelination , 1997, The Journal of cell biology.

[79]  D. Branton,et al.  alpha-Spectrin is required for ovarian follicle monolayer integrity in Drosophila melanogaster. , 1997, Development.

[80]  G. Macvicar,et al.  Segregation of two spectrin isoforms: polarized membrane-binding sites direct polarized membrane skeleton assembly. , 1997, Molecular biology of the cell.

[81]  R. Scheller,et al.  Sec6/8 Complex Is Recruited to Cell–Cell Contacts and Specifies Transport Vesicle Delivery to the Basal-Lateral Membrane in Epithelial Cells , 1998, Cell.

[82]  K. Kemphues,et al.  An Atypical PKC Directly Associates and Colocalizes at the Epithelial Tight Junction with ASIP, a Mammalian Homologue of Caenorhabditis elegans Polarity Protein PAR-3 , 1998, The Journal of cell biology.

[83]  M. Bate,et al.  Absence of PS integrins or laminin A affects extracellular adhesion, but not intracellular assembly, of hemiadherens and neuromuscular junctions in Drosophila embryos. , 1998, Developmental biology.

[84]  D. Pellman,et al.  The adenomatous polyposis coli-binding protein EB1 is associated with cytoplasmic and spindle microtubules. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[85]  Ulrich Tepass,et al.  Drosophila oocyte localization is mediated by differential cadherin-based adhesion , 1998, Nature.

[86]  R. Fehon,et al.  A Conserved Functional Domain of Drosophila Coracle Is Required for Localization at the Septate Junction and Has Membrane-organizing Activity , 1998, The Journal of cell biology.

[87]  Daniela C. Zarnescu,et al.  Drosophila betaHeavy-spectrin is essential for development and contributes to specific cell fates in the eye. , 1998, Development.

[88]  R. Fehon,et al.  Structural Analysis of Drosophila Merlin Reveals Functional Domains Important for Growth Control and Subcellular Localization , 1998, The Journal of cell biology.

[89]  Steven P Gross,et al.  Developmental Regulation of Vesicle Transport in Drosophila Embryos: Forces and Kinetics , 1998, Cell.

[90]  R. Ueda,et al.  Direct binding between two PDZ domain proteins Canoe and ZO-1 and their roles in regulation of the Jun N-terminal kinase pathway in Drosophila morphogenesis , 1998, Mechanisms of Development.

[91]  H. Aberle,et al.  Signaling and Adhesion Activities of Mammalian β-Catenin and Plakoglobin in Drosophila , 1998, The Journal of cell biology.

[92]  R. Fehon,et al.  Drosophila coracle, a member of the protein 4.1 superfamily, has essential structural functions in the septate junctions and developmental functions in embryonic and adult epithelial cells. , 1998, Molecular biology of the cell.

[93]  E. Knust,et al.  Control of spindle orientation in Drosophila by the Par-3-related PDZ-domain protein Bazooka , 1998, Current Biology.

[94]  H. Bellen,et al.  Neurexin IV, caspr and paranodin—novel members of the neurexin family: encounters of axons and glia , 1998, Trends in Neurosciences.

[95]  Lesilee S. Rose,et al.  Early patterning of the C. elegans embryo. , 1998, Annual review of genetics.

[96]  S. C. Liu,et al.  The FERM domain: A unique module involved in the linkage of cytoplasmic proteins to the membrane , 1998 .

[97]  P. Wang,et al.  Mutations of alpha spectrin and labial block cuprophilic cell differentiation and acid secretion in the middle midgut of Drosophila larvae. , 1998, Developmental biology.

[98]  L. Lim,et al.  Cellularization in Drosophila melanogaster is disrupted by the inhibition of rho activity and the activation of Cdc42 function. , 1998, Developmental biology.

[99]  V. Hartenstein,et al.  faint sausage encodes a novel extracellular protein of the immunoglobulin superfamily required for cell migration and the establishment of normal axonal pathways in the Drosophila nervous system. , 1998, Development.

[100]  P. Wang,et al.  Mutations of α Spectrin andlabialBlock Cuprophilic Cell Differentiation and Acid Secretion in the Middle Midgut ofDrosophilaLarvae , 1998 .

[101]  Y. Matsui,et al.  Sro7p, a Saccharomyces cerevisiae counterpart of the tumor suppressor l(2)gl protein, is related to myosins in function. , 1998, Genetics.

[102]  R. Dubreuil,et al.  Genetic studies of spectrin: new life for a ghost protein. , 1998, BioEssays : news and reviews in molecular, cellular and developmental biology.

[103]  W. J. Sullivan,et al.  Nuclear-fallout, a Drosophila protein that cycles from the cytoplasm to the centrosomes, regulates cortical microfilament organization. , 1998, Development.

[104]  A. Deutman,et al.  Mutations in a human homologue of Drosophila crumbs cause retinitis pigmentosa (RP12) , 1999, Nature Genetics.

[105]  Kuniaki Takahashi,et al.  The Canoe protein is necessary in adherens junctions for development of ommatidial architecture in the Drosophila compound eye , 1999, Cell and Tissue Research.

[106]  W. Sullivan,et al.  The Drosophila centrosomal protein Nuf is required for recruiting Dah, a membrane associated protein, to furrows in the early embryo. , 1999, Journal of cell science.

[107]  H. Bellen,et al.  Discs Lost, a Novel Multi-PDZ Domain Protein, Establishes and Maintains Epithelial Polarity , 1999, Cell.

[108]  C. Yeaman,et al.  New perspectives on mechanisms involved in generating epithelial cell polarity. , 1999, Physiological reviews.

[109]  The role of cell adhesion molecules in Drosophila heart morphogenesis: faint sausage, shotgun/DE-cadherin, and laminin A are required for discrete stages in heart development. , 1999, Developmental biology.

[110]  E. Bi,et al.  Cytokinesis: an emerging unified theory for eukaryotes? , 1999, Current opinion in cell biology.

[111]  Afadin: A key molecule essential for structural organization of cell-cell junctions of polarized epithelia during embryogenesis. , 1999, The Journal of cell biology.

[112]  J. Williams,et al.  Dynamic rearrangement of the spectrin membrane skeleton during the generation of epithelial polarity in Drosophila. , 1999, Journal of cell science.

[113]  M. Reid Paranodin, a glycoprotein of neuronal paranodal membranes , 1999 .

[114]  M. Bienz,et al.  A new Drosophila APC homologue associated with adhesive zones of epithelial cells , 1999, Nature Cell Biology.

[115]  R. Lifton,et al.  Paracellin-1, a renal tight junction protein required for paracellular Mg2+ resorption. , 1999, Science.

[116]  萬代 研二 Afadin : A Novel Actin Filament-binding Protein with One PDZ Domain Localized at Cadherin-based Cell-to-Cell Adherens Junction , 1999 .

[117]  Y. Takai,et al.  Ponsin/SH3P12: An l-Afadin– and Vinculin-binding Protein Localized at Cell–Cell and Cell–Matrix Adherens Junctions , 1999, The Journal of cell biology.

[118]  Daniela C. Zarnescu,et al.  Apical Spectrin Is Essential for Epithelial Morphogenesis but Not Apicobasal Polarity in Drosophila , 1999, The Journal of cell biology.

[119]  U. Tepass Genetic analysis of cadherin function in animal morphogenesis. , 1999, Current opinion in cell biology.

[120]  A. Nomoto,et al.  Nectin/PRR: An Immunoglobulin-like Cell Adhesion Molecule Recruited to Cadherin-based Adherens Junctions through Interaction with Afadin, a PDZ Domain–containing Protein , 1999, The Journal of cell biology.

[121]  M. Peifer,et al.  Drosophila Apc2 Is a Cytoskeletally-Associated Protein That Regulates Wingless Signaling in the Embryonic Epidermis , 1999, The Journal of cell biology.

[122]  E. Knust,et al.  bloated tubules (blot) encodes a Drosophila member of the neurotransmitter transporter family required for organisation of the apical cytocortex. , 1999, Developmental biology.

[123]  S. Noselli,et al.  Roles of the JNK signaling pathway in Drosophila morphogenesis. , 1999, Current opinion in genetics & development.

[124]  Joan E. Adamo,et al.  Yeast Homologues of Tomosyn and lethal giant larvae Function in Exocytosis and Are Associated with the Plasma Membrane Snare, Sec9 , 1999, The Journal of cell biology.

[125]  T. Pawson,et al.  A mammalian PAR-3–PAR-6 complex implicated in Cdc42/Rac1 and aPKC signalling and cell polarity , 2000, Nature Cell Biology.

[126]  M. Peifer,et al.  Wnt signaling in oncogenesis and embryogenesis--a look outside the nucleus. , 2000, Science.

[127]  M. Martín-Bermudo,et al.  Integrins as mediators of morphogenesis in Drosophila. , 2000, Developmental biology.

[128]  H. Cline,et al.  Synapse formation: If it looks like a duck and quacks like a duck… , 2000, Current Biology.

[129]  Stephen M. Mount,et al.  The genome sequence of Drosophila melanogaster. , 2000, Science.

[130]  U. Tepass,et al.  Apical, Lateral, and Basal Polarization Cues Contribute to the Development of the Follicular Epithelium during Drosophila Oogenesis , 2000, The Journal of cell biology.

[131]  A. Fukui,et al.  Meiotic maturation induces animal-vegetal asymmetric distribution of aPKC and ASIP/PAR-3 in Xenopus oocytes. , 2000, Development.

[132]  N. Perrimon,et al.  Localization of apical epithelial determinants by the basolateral PDZ protein Scribble , 2000, Nature.

[133]  S. Tsukita,et al.  Pores in the Wall , 2000, The Journal of cell biology.

[134]  G. Joberty,et al.  The cell-polarity protein Par6 links Par3 and atypical protein kinase C to Cdc42 , 2000, Nature Cell Biology.

[135]  Hj. Müller Genetic control of epithelial cell polarity: Lessons from Drosophila , 2000, Developmental dynamics : an official publication of the American Association of Anatomists.

[136]  E. Wieschaus,et al.  Polarized Insertion of New Membrane from a Cytoplasmic Reservoir during Cleavage of the Drosophila Embryo , 2000, The Journal of cell biology.

[137]  E. Wieschaus,et al.  Regulated Expression of nullo Is Required for the Formation of Distinct Apical and Basal Adherens Junctions in the Drosophila Blastoderm , 2000, The Journal of cell biology.

[138]  K. Tachibana,et al.  Two Cell Adhesion Molecules, Nectin and Cadherin, Interact through Their Cytoplasmic Domain–Associated Proteins , 2000, The Journal of cell biology.

[139]  M. Bienz,et al.  Actin-dependent membrane association of a Drosophila epithelial APC protein and its effect on junctional Armadillo , 2000, Current Biology.

[140]  M. Labouesse,et al.  LET-413 is a basolateral protein required for the assembly of adherens junctions in Caenorhabditis elegans , 2000, Nature Cell Biology.

[141]  J. Girault,et al.  The Glycosylphosphatidyl Inositol-Anchored Adhesion Molecule F3/Contactin Is Required for Surface Transport of Paranodin/Contactin-Associated Protein (Caspr) , 2000, The Journal of cell biology.

[142]  D Bilder,et al.  Cooperative regulation of cell polarity and growth by Drosophila tumor suppressors. , 2000, Science.

[143]  A. Klebes,et al.  A conserved motif in Crumbs is required for E-cadherin localisation and zonula adherens formation in Drosophila , 2000, Current Biology.

[144]  F. Matsuzaki,et al.  Role of cortical tumour-suppressor proteins in asymmetric division of Drosophila neuroblast , 2000, Nature.

[145]  S. D. Carlson,et al.  Blood barriers of the insect. , 2000, Annual review of entomology.

[146]  N. Perrimon,et al.  Collective nomenclature for LAP proteins , 2000, Nature Cell Biology.

[147]  L. Goldstein,et al.  Drosophila β Spectrin Functions Independently of α Spectrin to Polarize the Na,k Atpase in Epithelial Cells , 2000, The Journal of cell biology.

[148]  J. Pringle,et al.  Evidence for functional differentiation among Drosophila septins in cytokinesis and cellularization. , 2000, Molecular biology of the cell.

[149]  Haigen Huang,et al.  Stimulation of erythropoiesis by inhibiting a new hematopoietic death receptor in transgenic zebrafish , 2000, Nature Cell Biology.

[150]  A. Abo,et al.  A human homolog of the C. elegans polarity determinant Par-6 links Rac and Cdc42 to PKCζ signaling and cell transformation , 2000, Current Biology.

[151]  S. Wasserman,et al.  Functional analysis of the Drosophila diaphanous FH protein in early embryonic development. , 2000, Development.

[152]  H. Lipshitz,et al.  The hindsight gene is required for epithelial maintenance and differentiation of the tracheal system in Drosophila. , 2000, Developmental biology.

[153]  R. Fehon,et al.  Functional analysis of Cdc42 in actin filament assembly, epithelial morphogenesis, and cell signaling during Drosophila development. , 2000, Developmental biology.

[154]  J. Lengyel,et al.  Drosophila arc encodes a novel adherens junction-associated PDZ domain protein required for wing and eye development. , 2000, Developmental biology.

[155]  J. Knoblich,et al.  DmPAR-6 directs epithelial polarity and asymmetric cell division of neuroblasts in Drosophila , 2000, Nature Cell Biology.

[156]  M. Peifer,et al.  The canonical Wg and JNK signaling cascades collaborate to promote both dorsal closure and ventral patterning. , 2000, Development.

[157]  W. Sullivan,et al.  Discontinuous actin hexagon, a protein essential for cortical furrow formation in Drosophila, is membrane associated and hyperphosphorylated. , 2000, Molecular biology of the cell.

[158]  W. Sullivan,et al.  Lava Lamp, a Novel Peripheral Golgi Protein, Is Required for Drosophila melanogaster Cellularization , 2000, The Journal of cell biology.

[159]  C. Doe,et al.  The tumour-suppressor genes lgl and dlg regulate basal protein targeting in Drosophila neuroblasts , 2000, Nature.

[160]  D. Birnbaum,et al.  ERBIN: a basolateral PDZ protein that interacts with the mammalian ERBB2/HER2 receptor , 2000, Nature Cell Biology.

[161]  Y. Jan,et al.  Control of cell divisions in the nervous system: symmetry and asymmetry. , 2000, Annual review of neuroscience.

[162]  Kevin Truong,et al.  Cadherins in embryonic and neural morphogenesis , 2000, Nature Reviews Molecular Cell Biology.

[163]  E. Knust,et al.  Drosophila Atypical Protein Kinase C Associates with Bazooka and Controls Polarity of Epithelia and Neuroblasts , 2000, The Journal of cell biology.

[164]  D. Sherman,et al.  An Oligodendrocyte Cell Adhesion Molecule at the Site of Assembly of the Paranodal Axo-Glial Junction , 2000, The Journal of cell biology.

[165]  P. Aspenström,et al.  The mammalian homologue of the Caenorhabditis elegans polarity protein PAR-6 is a binding partner for the Rho GTPases Cdc42 and Rac1. , 2000, Journal of cell science.

[166]  P. Phelan,et al.  Innexins get into the gap , 2001, BioEssays : news and reviews in molecular, cellular and developmental biology.

[167]  T. Ohnishi,et al.  Atypical Protein Kinase C Is Involved in the Evolutionarily Conserved Par Protein Complex and Plays a Critical Role in Establishing Epithelia-Specific Junctional Structures , 2001, The Journal of cell biology.

[168]  D. Strutt Asymmetric localization of frizzled and the establishment of cell polarity in the Drosophila wing. , 2001, Molecular cell.

[169]  A. Klebes,et al.  Zonula adherens formation in Caenorhabditis elegans requires dlg-1, the homologue of the Drosophila gene discs large. , 2001, Developmental biology.

[170]  J. Ahringer,et al.  CDC-42 controls early cell polarity and spindle orientation in C. elegans , 2001, Current Biology.

[171]  Elior Peles,et al.  Contactin Orchestrates Assembly of the Septate-like Junctions at the Paranode in Myelinated Peripheral Nerve , 2001, Neuron.

[172]  G. Thomas Spectrin: The ghost in the machine , 2001, BioEssays : news and reviews in molecular, cellular and developmental biology.

[173]  B. Gumbiner,et al.  Apical Membrane Localization of the Adenomatous Polyposis Coli Tumor Suppressor Protein and Subcellular Distribution of the β-Catenin Destruction Complex in Polarized Epithelial Cells , 2001, The Journal of cell biology.

[174]  H. Ellis,et al.  Localization of the Drosophila MAGUK protein Polychaetoid is controlled by alternative splicing , 2001, Mechanisms of Development.

[175]  R. Fehon,et al.  The protein 4.1, ezrin, radixin, moesin (FERM) domain of Drosophila Coracle, a cytoplasmic component of the septate junction, provides functions essential for embryonic development and imaginal cell proliferation. , 2001, Genetics.

[176]  N. Perrimon,et al.  Drosophila Stardust interacts with Crumbs to control polarity of epithelia but not neuroblasts , 2001, Nature.

[177]  Martina Schneider,et al.  Drosophila Stardust is a partner of Crumbs in the control of epithelial cell polarity , 2001, Nature.

[178]  M. Labouesse,et al.  Assembly of C. elegans apical junctions involves positioning and compaction by LET-413 and protein aggregation by the MAGUK protein DLG-1. , 2001, Journal of cell science.

[179]  D. Colman,et al.  Organizing Principles of the Axoglial Apparatus , 2001, Neuron.

[180]  H. Krause,et al.  Apical Localization of wingless Transcripts Is Required for Wingless Signaling , 2001, Cell.

[181]  Yuh Nung Jan,et al.  Adherens junctions inhibit asymmetric division in the Drosophila epithelium , 2001, Nature.

[182]  T. P. Neufeld,et al.  Transcriptional regulation of cytoskeletal functions and segmentation by a novel maternal pair-rule gene, lilliputian. , 2001, Development.

[183]  Hugo J. Bellen,et al.  Axon-Glia Interactions and the Domain Organization of Myelinated Axons Requires Neurexin IV/Caspr/Paranodin , 2001, Neuron.

[184]  M. Gilbert,et al.  Neuroligin 3 is a vertebrate gliotactin expressed in the olfactory ensheathing glia, a growth‐promoting class of macroglia , 2001, Glia.

[185]  C. Hunter,et al.  CDC-42 regulates PAR protein localization and function to control cellular and embryonic polarity in C. elegans , 2001, Current Biology.

[186]  U. Tepass,et al.  Crumbs, the Drosophila homologue of human CRB1/RP12, is essential for photoreceptor morphogenesis , 2002, Nature.

[187]  H. Grossniklaus Crumbs, the Drosophila homologue of human CRB1/RP12, is essential for photoreceptor morphogenesis. Pellikka M, Tanentzapf G, Pinto M, Smith C, McGlade CJ, Ready DF, Tepass U. ∗ Nature 2002;416:143–149 , 2002 .