Short, long, and beyond: molecular and embryological approaches to insect segmentation.
暂无分享,去创建一个
[1] M. Roonwal. Studies on the Embryology of the African Migratory Locust, Locusta migratoria migratorioides R. and F. I. The Early Development, with a New Theory of Multi-Phased Gastrulation among Insects , 1936 .
[2] S. K. Moloo. The degree of determination of the early embryo of Schistocerca gregaria (Forskål) (Orthoptera: Acrididae). , 1971, Journal of embryology and experimental morphology.
[3] N. Eldredge,et al. Phylogeny and Paleontology , 1972 .
[4] D. Anderson. development of holometabolous insects , 1972 .
[5] K. Sander. Specification of the Basic Body Pattern in Insect Embryogenesis1 , 1976 .
[6] Sicily: the world reservoir for thalassemias and haemoglobinopathies , 1978, Nature.
[7] E. Lewis. A gene complex controlling segmentation in Drosophila , 1978, Nature.
[8] C Cremer,et al. A fate map for the larval epidermis of Drosophila melanogaster: localized cuticle defects following irradiation of the blastoderm with an ultraviolet laser microbeam. , 1979, Developmental biology.
[9] C. Nüsslein-Volhard,et al. Mutations affecting segment number and polarity in Drosophila , 1980, Nature.
[10] Masahiro Tanaka,et al. Early embryonic development of the primitive moths, Endoclyta signifer walker and E. excrescens butler (Lepidoptera : Hepialidae)☆ , 1980 .
[11] E. Hafen,et al. Spatial distribution of transcripts from the segmentation gene fushi tarazu during Drosophila embryonic development , 1984, Cell.
[12] P. Ingham,et al. Transcription pattern of the Drosophila segmentation gene hairy , 1985, Nature.
[13] T. Kornberg,et al. Patterns of engrailed and fushi tarazu transcripts reveal novel intermediate stages in Drosophila segmentation , 1985, Nature.
[14] P. O’Farrell,et al. Development of embryonic pattern in D. melanogaster as revealed by accumulation of the nuclear engrailed protein , 1985, Cell.
[15] P. Ingham,et al. Isolation, structure, and expression of even-skipped: A second pair-rule gene of Drosophila containing a homeo box , 1986, Cell.
[16] V. French,et al. Disruption of segmentation in a short germ insect embryo. I. The location of abnormalities induced by heat shock. , 1986, Journal of embryology and experimental morphology.
[17] M. Noll,et al. Isolation of the paired gene of Drosophila and its spatial expression during early embryogenesis , 1986, Nature.
[18] K. Sander,et al. Embryogenesis of the honeybee apis mellifera l. (hymenoptera : apidae): An sem study , 1986 .
[19] M. Levine,et al. Cross-regulatory interactions among pair-rule genes in Drosophila. , 1986, Science.
[20] V. French,et al. Disruption of segmentation in a short germ insect embryo. II. The structure of segmental abnormalities induced by heat shock. , 1986, Journal of embryology and experimental morphology.
[21] P. O’Farrell,et al. Establishment and refinement of segmental pattern in the Drosophila embryo: spatial control of engrailed expression by pair-rule genes. , 1987, Genes & development.
[22] K. G. Coleman,et al. The invected gene of Drosophila: sequence analysis and expression studies reveal a close kinship to the engrailed gene. , 1987, Genes & development.
[23] P. Lawrence,et al. Borders of parasegments in Drosophila embryos are delimited by the fushi tarazu and even-skipped genes , 1987, Nature.
[24] M. Frasch,et al. Characterization and localization of the even‐skipped protein of Drosophila. , 1987, The EMBO journal.
[25] N E Baker,et al. Molecular cloning of sequences from wingless, a segment polarity gene in Drosophila: the spatial distribution of a transcript in embryos , 1987, The EMBO journal.
[26] J. Gergen,et al. Isolation of the Drosophila segmentation gene runt and analysis of its expression during embryogenesis. , 1988, Genes & development.
[27] D. Melton,et al. Bimodal and graded expression of the Xenopus homeobox gene Xhox3 during embryonic development. , 1989, Development.
[28] W. Gehring,et al. Comparison of homeobox-containing genes of the honeybee and Drosophila. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[29] P. Taghert,et al. Pair-rule expression of a cell surface molecule during gastrulation of the moth embryo. , 1989, Development.
[30] M P Weir,et al. Patterns of engrailed protein in early Drosophila embryos. , 1989, Development.
[31] K. G. Coleman,et al. Expression of engrailed proteins in arthropods, annelids, and chordates. , 1989, Cell.
[32] N. Patel,et al. Expression of engrailed during segmentation in grasshopper and crayfish. , 1989, Development.
[33] P. Gruss,et al. A murine even‐skipped homologue, Evx 1, is expressed during early embryogenesis and neurogenesis in a biphasic manner. , 1990, The EMBO journal.
[34] M. D'Esposito,et al. EVX2, a human homeobox gene homologous to the even-skipped segmentation gene, is localized at the 5' end of HOX4 locus on chromosome 2. , 1991, Genomics.
[35] Jonathan M.W. Slack,et al. From egg to embryo : regional specification in early development , 1991 .
[36] R. Sommer,et al. Segmentation gene expression in the housefly Musca domestica. , 1991, Development.
[37] Susan J. Brown,et al. A deficiency of the homeotic complex of the beetle Tribolium , 1991, Nature.
[38] Nipam H. Patel,et al. Changing role of even-skipped during the evolution of insect pattern formation , 1992, Nature.
[39] Ralf J. Sommer,et al. Involvement of an orthologue of the Drosophila pair-rule gene hairy in segment formation of the short germ-band embryo of Tribolium (Coleoptera) , 1993, Nature.
[40] R. Marco,et al. Genomic organization and developmental pattern of expression of the engrailed gene from the brine shrimp Artemia. , 1993, Development.
[41] R. Sandeman,et al. Expression of engrailed can be lost and regained in cells of one clone in crustacean embryos. , 1993, The International journal of developmental biology.
[42] M. Noll,et al. Complex regulation of early paired expression: initial activation by gap genes and pattern modulation by pair-rule genes. , 1993, Development.
[43] N. Patel. The evolution of arthropod segmentation: insights from comparisons of gene expression patterns. , 1994, Development (Cambridge, England). Supplement.
[44] Susan J. Brown,et al. The beetle Tribolium castaneum has a fushi tarazu homolog expressed in stripes during segmentation. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[45] H. Jäckle,et al. Drosophila mode of metamerization in the embryogenesis of the lepidopteran insect Manduca sexta. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[46] D. Tautz,et al. Insect embryogenesis - What is ancestral and what is derived? , 1994 .
[47] Susan J. Brown,et al. Embryonic expression of the single Tribolium engrailed homolog. , 1994, Developmental genetics.
[48] F. Falciani,et al. Dax, a locust Hox gene related to fushi-tarazu but showing no pair-rule expression. , 1994, Development.
[49] Y. Suzuki,et al. A maternal homeobox gene, Bombyx caudal, forms both mRNA and protein concentration gradients spanning anteroposterior axis during gastrulation. , 1994, Development.
[50] N. Patel,et al. Developmental evolution: insights from studies of insect segmentation. , 1994, Science.
[51] S. Carroll,et al. Conservation of wingless patterning functions in the short-germ embryos of Tribolium castaneum , 1994, Nature.
[52] N. Patel,et al. Serially homologous engrailed stripes are generated via different cell lineages in the germ band of amphipod crustaceans (Malacostraca, Peracarida). , 1994, The International journal of developmental biology.
[53] Nipam H. Patel,et al. Pair-rule expression patterns of even-skipped are found in both short- and long-germ beetles , 1994, Nature.
[54] K. Sander. The evolution of insect patterning mechanisms: a survey of progress and problems in comparative molecular embryology , 1994 .
[55] L. Riddiford,et al. Morphogenesis in the early embryo of the lepidopteran Bombyx mori. , 1994, Developmental biology.
[56] M. Fujioka,et al. Early even-skipped stripes act as morphogenetic gradients at the single cell level to establish engrailed expression. , 1995, Development.
[57] Molecular Model Systems in the Lepidoptera: A summary of lepidopteran embryogenesis and experimental embryology , 1995 .
[58] R. Sommer,et al. Conserved and divergent expression aspects of the Drosophila segmentation gene hunchback in the short germ band embryo of the flour beetle Tribolium. , 1995, Development.
[59] K. Anderson,et al. Embryonic patterning mutants of Tribolium castaneum. , 1996, Development.
[60] J. Ahringer,et al. Posterior patterning by the Caenorhabditis elegans even-skipped homolog vab-7. , 1996, Genes & development.
[61] Susan J. Brown,et al. Segmentation and dorsoventral patterning in Tribolium , 1996 .
[62] S. Carroll,et al. Polyembryonic development: insect pattern formation in a cellularized environment. , 1996, Development.
[63] T. Kaufman,et al. Structure of the insect head as revealed by the EN protein pattern in developing embryos. , 1996, Development.
[64] K. Sander,et al. Pair-rule patterning in the honeybee Apis mellifera: Expression of even-skipped combines traits known from beetles and fruitfly , 1997, Development Genes and Evolution.
[65] M. Akam,et al. Cellularization in locust embryos occurs before blastoderm formation. , 1997, Development.
[66] Yoshiaki Suzuki,et al. Double‐segment defining role of even‐skipped homologs along the evolution of insect pattern formation , 1997, Development, growth & differentiation.
[67] Susan J. Brown,et al. Molecular characterization and embryonic expression of the even-skipped ortholog of Tribolium castaneum , 1997, Mechanisms of Development.
[68] D. Tautz,et al. A conserved mode of head segmentation in arthropods revealed by the expression pattern of Hox genes in a spider. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[69] K. Anderson,et al. Altered patterns of gene expression in Tribolium segmentation mutants. , 1998, Developmental genetics.
[70] D. Tautz,et al. A caudal homologue in the short germ band beetle Tribolium shows similarities to both, the Drosophila and the vertebrate caudal expression patterns , 1998, Development Genes and Evolution.
[71] Gregor Bucher,et al. Pair-rule and gap gene mutants in the flour beetle Tribolium castaneum , 1998, Development Genes and Evolution.
[72] M. Grbic,et al. Shifts in the life history of parasitic wasps correlate with pronounced alterations in early development. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[73] L. Nagy,et al. Development of polyembryonic insects: a major departure from typical insect embryogenesis , 1998, Development Genes and Evolution.
[74] D. Yeates,et al. Congruence and controversy: toward a higher-level phylogeny of Diptera. , 1999, Annual review of entomology.
[75] N. Patel,et al. Functional conservation of the wingless–engrailed interaction as shown by a widely applicable baculovirus misexpression system , 1999, Current Biology.
[76] Elimination of EVE protein by CALI in the short germ band insect Tribolium suggests a conserved pair-rule function for even skipped , 1999, Mechanisms of Development.
[77] Diethard Tautz,et al. Segmentation gene expression in the mothmidge Clogmia albipunctata (Diptera, Psychodidae) and other primitive dipterans , 1999, Development Genes and Evolution.
[78] L. Nagy,et al. The role of wingless in the development of multibranched crustacean limbs , 1999, Development Genes and Evolution.
[79] D. Tautz,et al. Expression patterns of hairy, even-skipped, and runt in the spider Cupiennius salei imply that these genes were segmentation genes in a basal arthropod. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[80] S. Roth,et al. Tribolium embryogenesis: a SEM study of cell shapes and movements from blastoderm to serosal closure , 2000, Development Genes and Evolution.
[81] M. Telford,et al. Evidence for the derivation of the Drosophila fushi tarazu gene from a Hox gene orthologous to lophotrochozoan Lox5 , 2000, Current Biology.
[82] M. Akam,et al. Early embryo patterning in the grasshopper, Schistocerca gregaria: wingless, decapentaplegic and caudal expression. , 2001, Development.
[83] G. K. Davis,et al. Pax group III genes and the evolution of insect pair-rule patterning. , 2001, Development.
[84] S. Lall,et al. Grasshopper hunchback expression reveals conserved and novel aspects of axis formation and segmentation. , 2001, Development.
[85] J. Krause,et al. Schichtenbau und Segmentierung junger Keimanlagen vonBombyx mori L. (Lepidoptera) in vitro ohne Dottersystem , 1964, Wilhelm Roux' Archiv für Entwicklungsmechanik der Organismen.
[86] C. E. Vanario-Alonso,et al. Embryonic expression of the engrailed homologue of Rhynchosciara americana , 1996, Roux's archives of developmental biology.
[87] A. Kanellis. Anlagenplan und Regulationserscheinungen in der Keimanlage des Eies von Gryllus domesticus , 1952, Wilhelm Roux' Archiv für Entwicklungsmechanik der Organismen.
[88] R. Fleig. Engrailed expression and body segmentation in the honeybee Apis mellifera , 1990, Roux's archives of developmental biology.