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REFERENCES

  • Abd-el Wahhab A. 1954. The formation of the germ layers and their embryonic coverings in the scorpion, Buthus quinquestriatus (H.E.). Proc Egypt Acad Sci 10: 110118.
  • Akiyama-Oda Y, Oda H. 2003. Early patterning of the spider embryo: a cluster of mesenchymal cells at the cumulus produces dpp signals by germ disc epithelial cells. Development 104: 391402.
  • Akiyama-Oda Y, Oda H. 2006. Axis specification in the spider embryo: dpp is required for radial-to-axial symmetry transformation and sog for ventral patterning. Development 133: 23472352.
  • Anderson D. 1966. The comparative early embryology of the Oligochaeta, Hirudinea and Onychophora. Proc Linn Soc N S W 91: 1043.
  • Anderson D. 1973. Embryology and phylogeny in annelids and arthropods. New York: Pergamon. 495 p.
  • Ayoub N, Garb J, Hedin M, Hayashi C. 2007. Utility of the nuclear protein-coding gene, elongation factor-1 gamma (EF-1γ), for spider systematics, emphasizing family level relationships of tarantulas and their kin (Araneae: Mygalomorphae). Mol Phylogen Evol 42: 394409.
  • Brusca R, Brusca G. 2002. Invertebrates. 2nd ed. Sunderland, MA: Sinauer. 936 p.
  • Crome W. 1963. Embryonalentwicklung ohne “Umrollung” (=Reversion) bei Vogelspinnen. Dtsch Entomol Zeitschrift 10: 8395.
  • Davis G, Patel N. 2002. Short, long, and beyond: molecular and embryological approaches to insect segmentation. Annu Rev Entomol 47: 669699.
  • de Rosa R, Prudhomme B, Balavoine G. 2005. caudal and even-skipped in the annelid Platynereis dumerili and the ancestry of posterior growth. Evol Dev 7: 574587.
  • del Pino E, Elinson R. 1983. A novel development pattern for frogs: gastrulation produces an embryonic disk. Nature 306: 589591.
  • Ehn A. 1963. The embryonic development of the spider Torania variata Poc. (Sparassidae). Zool Bidr Uppsala 36: 3748.
  • Foelix R. 1996. Biology of spiders. 2nd ed. New York: Oxford Thieme. 330 p.
  • Gerberding M, Patel N. 2004. Gastrulation in crustaceans. In: SternC, editor. Gastrulation. New York: Cold Spring Harbor Laboratory Press. p 7989.
  • Giribet G, Edgecombe G, Wheeler W. 2001. Arthropod phylogeny based on eight molecular loci and morphology. Nature 413: 157161.
  • Holm A. 1940. Studien uber die Entwicklung und Entwicklungsbiologie der Spinnen. Zool Bidr Uppsala 19: 1215.
  • Holm A. 1947. On the development of Opilio parietinus Deg. Zool Bidr Uppsala 29: 409422.
  • Holm A. 1952. Experimentelle Untersuchungen uber die Entwicklung und Entwicklungsphysiologie des Spinnenembryos. Zool Bidrag Uppsala 25: 293424.
  • Holm A. 1954. Notes on the development of an orthognath spider, Ischnothele karschi Bos. & Lenz. Zool Bidr Uppsala 30: 199221.
  • Keller R, Shook D. 2004. Gastrulation in amphibians. In: SternC, editor. Gastrulation. New York: Cold Spring Harbor Laboratory Press. p 171203.
  • Kiehart D, Edwards K, Rickoll W, Montague R. 2000. Multiple forces contribute to cell sheet morphogenesis for dorsal closure in Drosophila. J Cell Biol 149: 471490.
  • Montgomery T. 1909. The development of Theridium, an araneid, up to the stage of reversion. J Morphol 20: 297352.
  • Oda H, Nishimura O, Hirao Y, Tarui H, Agata K, Akiyama-Oda Y. 2007. Progressive activation of Delta-Notch signaling from around the blastopore is required to set up a functional caudal lobe in the spider Achaearanea tepidariorum. Development 134: 21952205.
  • Rempel J. 1957. The embryology of the black widow spider, Latrodectus mactans. Can J Zool 35: 3574.
  • Roth S. 2004. Gastrulation in other insects. In: SternC, editor. Gastrulation. New York: Cold Spring Harbor Laboratory Press. p 105121.
  • Saaristo M. 2006. Theridiid or cobweb spiders of the granitic Seychelles islands (Araneae, Theridiidae). Phelsuma 14: 4989.
  • Schimkewitsch L, Schimkewitsch W. 1911. Ein Betrag zur Entwicklungsgeschichte der Tetrapneumones. Bull Acad Imp Sci St. Petersbourg 8: 637654.
  • Schoppmeier M, Damen W. 2005. Expression of Pax group III genes suggests a single-segmental periodicity for opisthosomal segment patterning in the spider Cupiennius salei. Evol Dev 7: 160169.
  • Seitz K-A. 1966. Normale Entwicklung des Arachniden-Embryos Cupiennius salei Keyserling und seine Regulationsbefähigung nach Röntgenbestrahlungen. Zool Jahrb Anat Ontogenie 83: 327447.
  • Sekiguchi K, Yamamichi Y, Seshimo H, Sugita H. 1988. Normal development. In: SekiguchiK, editor. Biology of horseshoe crabs. Tokyo: Science House. p 133224.
  • Stollewerk A, Schoppmeier M, Damen W. 2003. Involvement of Notch and Delta genes in spider segmentation. Nature 423: 863865.
  • Wilkins A. 2002. The evolution of developmental pathways. Sunderland, MA: Sinauer. 603 p.
  • Wray G, Raff R. 1991. Rapid evolution of gastrulation mechanisms in a sea urchin with lecithotrophic larvae. Evolution 45: 17411750.
  • Yamakazi K, Akiyama-Oda Y, Oda H. 2005. Expression Patterns of a twist-related gene in embryos of the spider Achaearanea tepidariorum reveal divergent aspects of mesoderm development in the fly and spider. Zool Sci 22: 177185.
  • Yoshikura M. 1955. Embryological studies on the liphistiid spider Heptathela kimurai. Kumamoto J Sci Ser B 2: 186.
  • Yoshikura M. 1958. On the development of the purse-web spider, Atypus karschi Donitz. Kumamoto J Sci Ser B 3: 7385.