The drosophila gastrulation gene concertina encodes a Gα-like protein

Gastrulation is a complex process requiring the coordination of cell shape changes and cell movements. In Drosophila, gastrulation begins immediately upon cellularization of the blastoderm stage embryo with the formation of the ventral furrow and posterior midgut. Cells that form both of these invaginations change their shape via apical constriction. Embryos from mothers homozygous for mutations in the concertina (cta) gene begin furrow formation by forming a zone of tightly apposed cells, constrict some cells, and then fail to constrict enough cells to form an organized groove. The cta gene has been cloned, and sequence analysis suggests that it encodes an alpha subunit of a G protein. G proteins have a role in cell-cell communication as mediators of signals between membrane-bound receptors and intracellular effectors. The phenotype of embryos from homozygous cta mothers suggests that the cta gene plays a role in a signal transduction pathway used during gastrulation.

[1]  W. D. Benton,et al.  Screening lambdagt recombinant clones by hybridization to single plaques in situ. , 1977, Science.

[2]  F. Turner,et al.  Scanning electron microscopy of Drosophila melanogaster embryogenesis. II. Gastrulation and segmentation. , 1977, Developmental Biology.

[3]  R. Staden A new computer method for the storage and manipulation of DNA gel reading data. , 1980, Nucleic acids research.

[4]  A. Gilman,et al.  G proteins: transducers of receptor-generated signals. , 1987, Annual review of biochemistry.

[5]  E. Lewis,et al.  Molecular Genetics of the Bithorax Complex in Drosophila melanogaster , 1983, Science.

[6]  M. Simon,et al.  G protein multiplicity in eukaryotic signal transduction systems. , 1988, Biochemistry.

[7]  J. Hurley,et al.  The Drosophila Go alpha-like G protein gene produces multiple transcripts and is expressed in the nervous system and in ovaries. , 1989, The Journal of biological chemistry.

[8]  J. Condeelis,et al.  Transduction of the chemotactic signal to the actin cytoskeleton of Dictyostelium discoideum. , 1989, Developmental biology.

[9]  E. Wieschaus,et al.  Female sterile mutations on the second chromosome of Drosophila melanogaster. I. Maternal effect mutations. , 1989, Genetics.

[10]  T. Andersson,et al.  Involvement of GTP-binding proteins in actin polymerization in human neutrophils. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[11]  A. Feinberg,et al.  A technique for radiolabeling DNA restriction endonuclease fragments to high specific activity. , 1983, Analytical biochemistry.

[12]  C. Nüsslein-Volhard,et al.  Organization of anterior pattern in the Drosophila embryo by the maternal gene bicoid , 1986, Nature.

[13]  John Philip Trinkaus,et al.  Cells into Organs: The Forces That Shape the Embryo , 1984 .

[14]  P. Alberch,et al.  The mechanical basis of morphogenesis. I. Epithelial folding and invagination. , 1981, Developmental biology.

[15]  J. Spudich,et al.  Chemoattractant-elicited translocation of myosin in motile Dictyostelium. , 1989, Cell Motility and the Cytoskeleton.

[16]  B. Thisse,et al.  Sequence of the twist gene and nuclear localization of its protein in endomesodermal cells of early Drosophila embryos. , 1988, The EMBO journal.

[17]  R. Firtel,et al.  G protein linked signal transduction pathways in development: Dictyostelium as an experimental system , 1989, Cell.

[18]  M. Levine,et al.  Transcripts encoded by a homoeo box gene are restricted to dorsal tissues of Drosophila embryos , 1986, Nature.

[19]  M. Forte,et al.  The Drosophila gene coding for the alpha subunit of a stimulatory G protein is preferentially expressed in the nervous system. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[20]  E. Wieschaus,et al.  Requirements for X-linked zygotic gene activity during cellularization of early Drosophila embryos. , 1988, Development.

[21]  D. E. Somers,et al.  A Drosophila melanogaster G protein alpha subunit gene is expressed primarily in embryos and pupae. , 1988, The Journal of biological chemistry.

[22]  G. Schoenwolf,et al.  Mechanisms of neurulation: traditional viewpoint and recent advances. , 1990, Development.

[23]  E. Wieschaus,et al.  Requirements for zygotic gene activity during gastrulation in Drosophila melanogaster. , 1985, Developmental biology.

[24]  R. Staden Automation of the computer handling of gel reading data produced by the shotgun method of DNA sequencing. , 1982, Nucleic acids research.

[25]  M. Akam,et al.  The molecular basis for metameric pattern in the Drosophila embryo. , 1987, Development.

[26]  P. Casey,et al.  Myristoylated alpha subunits of guanine nucleotide-binding regulatory proteins. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[27]  L. Stryer,et al.  Cyclic GMP cascade of vision. , 1986, Annual review of neuroscience.

[28]  B. Burnside,et al.  Microtubules and microfilaments in newt neuralation. , 1971, Developmental biology.

[29]  A. Brown,et al.  Splice variants of the alpha subunit of the G protein Gs activate both adenylyl cyclase and calcium channels. , 1989, Science.

[30]  C. Nüsslein-Volhard,et al.  A gradient of nuclear localization of the dorsal protein determines dorsoventral pattern in the Drosophila embryo , 1989, Cell.

[31]  E. Southern Detection of specific sequences among DNA fragments separated by gel electrophoresis. , 1975, Journal of molecular biology.

[32]  J. Spudich,et al.  Chemoattractant-elicited increases in Dictyostelium myosin phosphorylation are due to changes in myosin localization and increases in kinase activity. , 1987, The Journal of biological chemistry.

[33]  M. Simon,et al.  Diversity of the G-protein family: Sequences from five additional α subunits in the mouse , 1989 .

[34]  L. Landweber,et al.  A strategy for producing single-stranded DNA in the polymerase chain reaction. A direct method for genomic sequencing. , 1989, Gene analysis techniques.

[35]  N. Perrimon,et al.  Zygotic lethals with specific maternal effect phenotypes in Drosophila melanogaster. I. Loci on the X chromosome. , 1989, Genetics.

[36]  A. VanDongen,et al.  Newly identified brain potassium channels gated by the guanine nucleotide binding protein Go. , 1988, Science.

[37]  J. Zwaan,et al.  Changes in Cell and Organ Shape during Early Development of the Ocular Lens , 1973 .

[38]  P. Simpson,et al.  Maternal-Zygotic Gene Interactions during Formation of the Dorsoventral Pattern in Drosophila Embryos. , 1983, Genetics.

[39]  Walter J. Gehring,et al.  Control elements of the Drosophila segmentation gene fushi tarazu , 1985, Cell.

[40]  G. Schoenwolf,et al.  Quantitative analyses of changes in cell shapes during bending of the avian neural plate. , 1984, Developmental biology.

[41]  P. Newell,et al.  Evidence that cyclic GMP regulates myosin interaction with the cytoskeleton during chemotaxis of Dictyostelium. , 1988, Journal of cell science.

[42]  C. Nusslein-Volhard Maternal Effect Mutations that Alter the Spatial Coordinates of the Embryo of Drosophila melanogaste , 1979 .

[43]  A. Spiegel,et al.  Immunological and molecular characterization of Go alpha-like proteins in the Drosophila central nervous system. , 1989, The Journal of biological chemistry.

[44]  Hall Kr Regional homology in GTP-binding proto-oncogene products and elongation factors , 1983 .

[45]  D. Lipman,et al.  Improved tools for biological sequence comparison. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[46]  E. Neer,et al.  Neuronal expression of a newly identified Drosophila melanogaster G protein alpha 0 subunit. , 1989, Cell regulation.

[47]  R. Lehmann,et al.  Determination of anteroposterior polarity in Drosophila. , 1987, Science.

[48]  A. Poustka,et al.  Lambda replacement vectors carrying polylinker sequences. , 1983, Journal of molecular biology.

[49]  D. T. Jones,et al.  Golf: an olfactory neuron specific-G protein involved in odorant signal transduction. , 1989, Science.

[50]  F. Sanger,et al.  DNA sequencing with chain-terminating inhibitors. , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[51]  K. Anderson,et al.  Establishment of dorsal-ventral polarity in the Drosophila embryo: Genetic studies on the role of the Toll gene product , 1985, Cell.

[52]  M Gribskov,et al.  Sigma factors from E. coli, B. subtilis, phage SP01, and phage T4 are homologous proteins. , 1986, Nucleic acids research.

[53]  C. Ettensohn,et al.  Mechanisms of Epithelial Invagination , 1985, The Quarterly Review of Biology.

[54]  E. Craig,et al.  Multiple actin-related sequences in the Drosophila melanogaster genome , 1980, Cell.

[55]  M. Woolkalís,et al.  Fractionation of the beta subunit common to guanine nucleotide-binding regulatory proteins with the cytoskeleton. , 1986, Molecular pharmacology.

[56]  David Y. Thomas,et al.  The STE4 and STE18 genes of yeast encode potential β and γ subunits of the mating factor receptor-coupled G protein , 1989, Cell.

[57]  A. Spradling,et al.  Replication and expression of an X-linked cluster of Drosophila chorion genes. , 1986, Developmental biology.

[58]  L. Stryer,et al.  G proteins: a family of signal transducers. , 1986, Annual review of cell biology.

[59]  J. Devereux,et al.  A comprehensive set of sequence analysis programs for the VAX , 1984, Nucleic Acids Res..

[60]  M. Leptin,et al.  Cell shape changes during gastrulation in Drosophila. , 1990, Development.

[61]  R. Iyengar,et al.  The G protein-gated atrial K+ channel is stimulated by three distinct GIα-subunits , 1988, Nature.

[62]  R. Steward,et al.  Bicaudal-D, a Drosophila gene involved in developmental asymmetry: localized transcript accumulation in ovaries and sequence similarity to myosin heavy chain tail domains. , 1989, Genes & development.

[63]  B. Wakimoto,et al.  The effects of chromosome rearrangements on the expression of heterochromatic genes in chromosome 2L of Drosophila melanogaster. , 1990, Genetics.

[64]  G. Struhl,et al.  A molecular gradient in early Drosophila embryos and its role in specifying the body pattern , 1986, Nature.

[65]  W. Merrick,et al.  GTP-binding domain: three consensus sequence elements with distinct spacing. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[66]  P. C. Wensink,et al.  α-tubulin genes of drosophila , 1981, Cell.

[67]  E. Hewlett,et al.  Rhodopsin-enhanced GTPase activity of the inhibitory GTP-binding protein of adenylate cyclase. , 1984, The Journal of biological chemistry.

[68]  E. Scolnick,et al.  Requirement of either of a pair of ras-related genes of Saccharomyces cerevisiae for spore viability , 1984, Nature.

[69]  T. E. Schroeder,et al.  Cytoplasmic filaments and morphogenetic movement in the amphibian neural tube. , 1967, Developmental biology.

[70]  H. Ochman,et al.  Production of single-stranded DNA templates by exonuclease digestion following the polymerase chain reaction. , 1989, Nucleic acids research.

[71]  J. Zwaan,et al.  Cell population kinetics in the chicken lens primordium during and shortly after its contact wth the optic cup. , 1971, Developmental biology.

[72]  T. Gustafson,et al.  Cellular mechanisms in the morphogenesis of the sea urchin larva. Change in shape of cell sheets. , 1962, Experimental cell research.