Gerberding, Matthias: Cell lineage und engrailed Expression in der Mittellinie der höheren Krebse Orchestia cavimana und Porcellio scaber

Bibliographie

Bibliographie Teil 1

Folgende Publikationen werden in der Arbeit zitiert:

Aguinaldo AMA, Turbeville JM, Linford LS, Rivera MC, Garey JR, Raff RA, Lake JA (1997) Evidence for a clade of nematodes, arthropods and other moulting animals. Nature 387: 489-493

Anderson DT (1973) Embryology and phylogeny of annelids and arthropods. Pergamon Press, Oxford

Averof M, Akam M (1995) Insect-crustacean relationships: insights from comparative developmental and molecular studies. Phil Trans R Soc Lond B 347: 293-303

Awad TA, Truman JW (1997) Postembryonic development of the midline glia in the CNS of Drosophila: proliferation, programmed cell death, and endocrine regulation. Dev Biol 187: 283-297

Baer KE von (1828) Über Entwickelungsgeschichte der Thiere. Beobachtung und Reflexion. Gebr. Bornträger, Königsberg

Bastiani MJ, Couet HG, Quinn JMA, Karlstrom RO, Kotrla K, Goodman CS, Ball EE (1992) Position-specific expression of the Annulin protein during grasshopper embryogenesis. Dev Biol 154: 129-142

Bate CM, Grunewald EB (1981) Embryogenesis of an insect nervous system. II. A second class of neuron precursor cells and the origin of the intersegmental connectives. J Embryol Exp Morphol 61: 317-330

Bergh RS (1893) Beiträge zur Embryologie der Crustaceen. I. Zur Bildungsgeschichte des Keimstreifens von Mysis. Zool Jb Anat 6: 491-528

Biggelaar JAM, Dictus WJAG, van Loon AE (1997) Cleavage patterns, cell lineages and cell specification are clues to phyletic lineages in Spiralia. Semin Cell Dev Biol 8: 367-378

Blanchard CE (1986) Early development of the thorax and the nervous system of the brine shrimp Artemia. PhD thesis, University of Leicester

Bossing T and Technau GM (1994) The fate of the CNS midline progenitors in Drosophila as revealed by a new method for single cell labelling. Development 120: 1895-1906

Bossing T, Udolph G, Doe CQ, Technau GM (1996) The embryonic central nervous system lineages of Drosophila melanogaster. I. Neuroblast lineages derived from the ventral half of the neuroectoderm. Dev Biol 179: 41-64

Blagburn JM, Gibbon CR, Bacon JP (1995) Expression of engrailed in an array of identified sensory neurons: comparison with position, axonal arborization, and synaptic connectivity. J Neurobiol 28: 493-505

Breidbach O, Urbach R (1996) Embryonic and postembryonic development of serial homologous neurons in the suboesophageal ganglion of Tenebrio molitor (Insecta: Coleoptera). Microsc Res Tech 35: 180-200


91

Broadus J, Skeath JB, Spana EP, Bossing T, Technau, GN, Doe, CQ (1995) New neuroblast markers and the origin of the aCC/pCC neurons in the Drosophila central nervous system. Mech Dev 53: 393-402

Brusca RC, Brusca GJ (1990) Invertebrates. Sinauer, Sunderland MA

Campbell HR, Thompson KJ, Siegler MV (1995) Neurons of the median neuroblast lineage of the grasshopper: a population study of the efferent DUM neurons. J Comp Neurol 358: 541-551

Campos-Ortega JA, Hartenstein V (1997) The development of Drosophila melanogaster. Springer, Berlin, Heidelberg

Condron BG, Zinn K (1994) The grasshopper median neuroblast is a multipotent progenitor cell that generates glia and neurons in distinct temporal phases. J Neurosci 14: 5766-5777

Condron BG, Patel NH, Zinn K (1994) engrailed controls glial/neuronal cell fate decisions at the midline of the central nervous system. Neuron 13: 541-554

Damen WGM, Hausdorf M, Seyfarth E-A, Tautz D (1998) A conserved mode of head segmentation in arthropod revealed by the expression pattern of HOX genes in a spider. Proc Natl Acad Sci USA 95: 10665-10670

del Pino EM, Escobar B (1981) Embryonic stages of Gastrotheca riobambae (Fowler) during maternal incubation and comparison of development with that of other egg-brooding hylid frogs. J Morph 167: 277-295

Doe CQ (1992) Molecular markers for identified neuroblasts and ganglion mother cells in the Drosophila central nervous system. Development 116: 855-863

Dohle W (1964) Die Embryonalentwicklung von Glomeris marginata (Villers) im Vergleich zur Entwicklung anderer Diplopoden. Zool Jb Anat 81: 241-310

Dohle W (1970) Die Bildung und Differenzierung des postnauplialen Keimstreifs von Diastylis rathkei (Crustacea, Cumacea) I. Die Bildung der Teloblasten und ihrer Derivate. Z Morph Ökol Tiere 67: 307-392

Dohle W (1972) Über die Bildung und Differenzierung des postnauplialen Keimstreifs von Leptochelia spec. (Crustacea, Tanaidacea). Zool Jb Anat 89: 503-566

Dohle W (1976a) Die Bildung und Differenzierung des postnauplialen Keimstreifs von Diastylis rathkei (Crustacea, Cumacea) II. Die Differenzierung und Musterbildung des Ektoderms. Zoomorphologie 84: 235-277

Dohle W (1976b) Zur Frage des Nachweises von Homologien durch die komplexen Zell- und Teilungsmuster in der embryonalen Entwicklung höherer Krebse (Crustacea, Malacostraca, Peracarida). Sitzber Ges Naturf Freunde Berlin NF 16: 125-144

Dohle W (1989) Zur Frage der Homologie ontogenetischer Muster. Zool Beitr NF 32: 355-389

Dohle W (1996a) Spiralia. In: Westheide W, Rieger R (Hrsg) Einzeller und Wirbellose Tiere. Fischer, Stuttgart, pp 205-209

Dohle W (1996b) Antennata. In: Westheide W, Rieger R (Hrsg) Einzeller und Wirbellose Tiere. Fischer, Stuttgart, pp 582-584

Dohle W (1997) Myriapod-insect relationships as opposed to an insect-crustacean sister group relationship. In: Fortey RA and Thomas RH (Hrsg) Arthropod relationships. SASS vol. 55, Chapman and Hall, London, pp 305-315

Dohle W, Scholtz G (1997) How far does cell lineage influence cell fate specification in crustacean embryos? Semin Cell Dev Biology 8: 379-390


92

du Lac S, Bastiani MJ, Goodman CS (1986) Guidance of neuronal growth cone in the grasshopper embryo. II. Recognition of a specific axonal pathway by the aCC neuron. J Neurosci 6: 3532-3541

Escherich K (1902) Zur Entwicklung des Nervensystems der Musciden mit besonderer Berücksichtigung des sogenannten Mittelstranges. Z wiss Zool 71: 525-552

Flanagan JG, Van Vactor D (1998) Through the looking glass: axon guidance at the midline choice point. Cell 92: 429-432

Fleig R (1990) Engrailed expression and body segmentation in the honeybee, Apis mellifera. Roux's Arch Dev Biol 198: 467-473

Freeman JA (1989) Segment morphogenesis in Artemia larvae. In: Warner AH, Macrae TH, Bagshaw JC (eds) Cell and Molecular Biology of Artemia Development. Plenum Press, New York, pp 77-90

Friedrich M, Tautz D (1995) Ribosomal phylogeny of the major extant arthropod classes and the evolution of the myriapods. Nature 376: 165-167

Gerberding M (1997) Germ band formation and early neurogenesis of Leptodora kindti (Cladocera): first evidence for neuroblasts in the entomostracan crustaceans. Inv Repr Dev 32: 63-73

Goldschmid A (1996) Chordata. In: Westheide W, Rieger R (Hrsg) Einzeller und Wirbellose Tiere. Fischer, Stuttgart, pp 835-837

Goodman CS (1982) Embryonic development of identified neurons in the grasshopper. In: Spitzer NC (Hrsg) Neuronal development. Plenum, New York, pp. 171-212

Goodman CS, Spitzer NC (1979) Embryonic development of identified neurones: differentiation from neuroblast to neurone. Science 280: 208-214

Goodman CS, Bastiani MJ, Doe CQ, du Lac S, Helfand SL, Kuwada JY, Thomas JB (1984) Cell recognition during neuronal development. Science 225: 1271-1279

Goodman CS, Doe CQ (1993) Embryonic development of the Drosophila central nervous system. In: Bate, Martinez-Arias A (Hrsg) The development of Drosophila melanogaster, Vol 2. CSHL press, Cold Spring Harbor, pp 1131-1206

Gratzner HG (1982) Monoclonal antibody to 5-bromo- and 5-iododeoxyuridine: a new reagent for detection of DNA replication. Science 218: 474-475

Grbic M, Nagy LM, Carroll SB, Strand M (1996) Polyembryonic development: insect pattern formation in a cellularized environment. Development 122: 795-804

Grbic M, Nagy LM, Strand MR (1998) Development of polyembryonic insects: a major departure from typical insect embryogenesis. Dev Genes Evol 208: 69-81

Hahnenkamp L (1974) Die Bildung und Differenzierung des Keimstreifs der Asseln (Isopoda) und anderer höherer Krebse. Eine vergleichend-embryologische Studie. Hausarbeit für die Erste (wissenschaftliche) Staatsprüfung, Abschnitt II, FU Berlin

Harzsch S, Dawirs RR (1994) Neurogenesis in larval stages of the spider crab Hyas araneus (Decapoda, Brachyura): proliferation of neuroblasts in the ventral nerve cord. Roux's Arch Dev Biol 204: 93-100

Harzsch S, Miller J, Benton J, Dawirs RR, Beltz B (1998) Neurogenesis in the thoracic neuromeres of two crustaceans with different types of metamorphic development. J Exp Biol 201: 2465-2479

Heider K (1889) Die Embryonalentwicklung Hydrophilus piceus. Fischer, Jena


93

Hertzel G (1984) Die Segmentation des Keimstreifens von Lithobius forficatus (L.) (Myriapoda, Chilopoda). Zool Jb Anat 112: 369-386

Heymons R (1901) Die Entwicklungsgeschichte der Scolopender. Zoologica 13: 1-244

Ho RK, Kimmel CB (1993) Commitment of cell fate in the early zebrafish embryo. Science 261: 109-111

Holland LZ, Kene M, Williams NA, Holland NB (1997) Sequence and embryonic expression of the amphioxus gene (AmphiEn): the metameric pattern of transcription resembles that of ist segment-polarity homolog in Drosophila. Development 124: 1723-1732

Hoyle G (1986) Glial cells of an insect ganglion. J Comp Neurol 246: 85-103

Jacobs JR, Goodman CS (1989a) Embryonic development of axon pathways in the Drosophila CNS: I. A glial scaffold appears before the first growth cones. J Neurosci 9: 2402-2411

Jacobs JR, Goodman CS (1989b) Embryonic development of axon pathways in the Drosophila CNS: II. Behavior of poineer growth cones. J Neurosci 9: 2412-2422

Jacobs JR, Hiromi Y, Patel NH, Goodman CS (1989) Lineage, migration, and morphogenesis of longitudinal glia in the Drosophila CNS as revealed by a molecular lineage marker. Neuron 2: 1625-1631

Ito K, Urban J, Technau GM (1995) Distribution, classification, and development of Drosophila glial cell in the late embryonic and early larval ventral nerve cord. Roux's Arch Dev Biol 204: 284-307

Kimmel CB, Warga RM, Kane DA (1994) Cell cycles and clonal strings during formation of the zebrafish central nervous system. Development 120: 265-276

Kissinger JC, Raff RA (1998) Evolutionary changes in sites and timing of actin gene expression in embryos of teh direct- and indirect-developing sea urchins, Heliocidaris erythrogramma and H. tuberculata. Dev Genes Evol 208: 82-93

Kingsley JS (1892) The embryology of Limulus. J Morph 7: 35-66

Kingsley JS (1893) The embryology of Limulus. J Morph 8: 195-268

Klämbt C, Goodman CS (1991) The diversity and pattern of glia during axon pathway formation in the Drosophila embryo. Glia 4: 205-213

Klämbt C, Jacobs JR, Goodman CS (1992) The midline of Drosophila central nervous system: a model for the genetic analysis of cell fate, cell migration, and growth cone guidance. Cell 64: 801-815

Knoll HJ (1974) Untersuchungen zur Entwicklungsgeschichte von Scutigera coleoptrata L. (Chilopoda). Zool Jb Anat 92: 47-132

Lowe CJ, Wray GA (1997) Radical alterations in the roles of homeobox genes during echinoderm evolution. Nature 389: 718-721

Luckett WP (1976) Cladistic relationships among primate higher categories: evidence of the fetal membranes and placenta. Folia Primatol 25: 245-276

Manzanares M, Marco R, Garesse R (1993) Genomic organization and developmental pattern of expression of the engrailed gene from the brine shrimp. Development 118: 1209-1219

Manzanares M, Williams TA, Marco R, Garesse R (1996) Segmentation in the crustacean Artemia: engrailed staining studied with an antibody raised against the Artemia protein. Roux's Arch Dev Biol 205: 424-431


94

McGlade-McCulloh E, Muller KJ, Zipser B (1990) Expression of surface glycoproteins early in leech neural development. J Comp Neurol 299: 123-131

Meschenmoser M (1996) Dorsal- und Lateralorgane in der Embryonalentwicklung von Peracariden (Crustacea, Malacostraca). Cuvillier Verlag, Göttingen

Moshel SM, Levine M, Collier JR (1998) Shell differentiation and engrailed expression in the Ilyanassa embryo. Dev Genes Evol 208: 135-141

Nilsson D-E, Osorio D (1997) Homology and parallelism in arthropod sensory processing. In: Fortey RA and Thomas RH (Hrsg) Arthropod relationships. SASS vol. 55, Chapman and Hall, London, pp 333-348

Nüsslein-Volhard C, Wieschaus E (1980) Mutations affecting segment number and polarity in Drosophila. Nature 287:795-801

Olesen J (1998) A phylogenetic analysis of the Conchostraca and Cladocera (Crustacea, Branchiopoda, Diplostraca). Zool J Linn Soc 122: 491-536

Papan C, Campos-Ortega JA (1997) A clonal analysis of spinal cord development in the zebrafish. Dev Genes Evol 207: 71-81

Patel NH, Martin-Blanco E, Coleman KG, Poole SJ, Ellis MC, Kornberg TB, Goodman CS (1989a) Expression of engrailed proteins in arthropods, annelids, and chordates. Cell 58: 955-968

Patel NH, Kornberg TB, Goodman CS (1989b) Expression of engrailed during segmentation in grasshopper and crayfish. Development 107: 201-212

Patel NH, Schafer B, Goodman CS, Holmgren R (1989c) The role of segment polarity genes during Drosophila neurogenesis. Genes Dev 3: 890-904

Patel NH (1994a) Developmental evolution: insights from studies of insect segmentation. Science 266: 581-590

Patel NH (1994b) The evolution of arthropod segmentation: insights from comparisons of gene expression patterns. Development 1994 Supplement: 201-207

Peterson M, Popadic A, Kaufman TC (1998) The expression pattern of two engrailed-related genes in an apterygote insect and a phylogenetic analysis of insect engrailed-related genes. Dev Genes Evol 208: 547-557

Pflugfelder O (1948) Entwicklung von Paraperipatus amboiensis n. sp. Zool Jb Anat 69: 443-492

Prokop A, Technau GM (1994) Early tagma-specific commitment of Drosophila CNS progenitor NB1-1. Development 120: 2567-2578

Queinnec E, Mouchel-Vielh E, Guimonnea, Gibert JM, Turquier Y, Deutsch JS (1999) Clonign and expression of the engrailed.a gene of the barnacle Sacculina carcini. Dev Genes Evol 209: 180-185

Raper JA, Bastiani M, Goodman CS (1983a) Pathfinding by neuronal growth cones in the grasshopper embryos. I. Divergent choices made by the growth cones of sibling neurons. J Neurosci 3: 20-30

Raper JA, Bastiani M, Goodman CS (1983b) Pathfinding by neuronal growth cones in the grasshopper embryos. II. Selctive fasciculation onto specific axonal pathways. J Neurosci 3: 31-41

Roonwal ML (1936) 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. Phil Trans R Soc Lond B 226: 391-421


95

Roonwal ML (1937) Studies on the embryology of the african migratory locust, Locusta migratoria migratorioides Reiche and Frm II. Organogeny. Phil Trans R Soc Lond B 227: 175-244

Rossiiskaya M (1888) Le développement d'Orchestia littorea Spence Bate. Bull Soc Imp Natur Moscou (Nouv Sér) 2: 561-581

Satoh N (1993) Developmental biology of ascidians. Cambridge University Press, Cambridge

Satoh N, Jeffery WR (1995) Chasing tails in ascidians: developmental insights into the origin and evolution of chordates. Trends Genet 11: 354-359

Schmidt H, Rickert C, Bossing T, Vef O, Urban J, Technau GM (1997) The embryonic central nervous system lineages of Drosophila melanogaster. I. Neuroblast lineages derived from the dorsal half of the neuroectoderm. Dev Biol 189: 186-204

Schmidt-Rhaesa A, Bartolomaeus T, Lemburg C, Ehlers U, Garey JR (1998) The position of the Arthropoda in the phylogenetic system. J Morphol 238: 263-285

Schminke HK (1996) Crustacea. In: Westheide W, Rieger R (Hrsg) Einzeller und Wirbellose Tiere. Fischer, Stuttgart, pp 501-581

Schnabel R (1997) Why does a nematode have an invariant cell lineage? Semin Cell Dev Biol 8: 341-349

Scholl G (1977) Beiträge zur Embryonalentwicklung von Limulus polyphemus L. (Chelicerata, Xiphosura). Zoomorphologie 86: 99-154

Scholtz G (1984) Untersuchungen zur Bildung und Differenzierung des postnauplialen Keimstreifs von Neomysis integer Leach (Crustacea, Malacostraca, Peracarida). Zool Jb Anat 112: 295-349

Scholtz G (1990) The formation, differentiation and segmentation of the post-naupliar germ band of the amphipod Gammarus pulex (L.) (Crustacea, Malacostraca, Peracarida). Proc R Soc Lond B 239: 163-211

Scholtz G (1992a) Cell lineage studies in the crayfish Cherax destructor (Crustacea, Decapoda): germ band formation, segmentation and early neurogenesis. Roux's Arch Dev Biol 202: 36-48

Scholtz G (1992b) Sind die optischen Loben von Insekten und Höheren Krebsen (Malacostraca) homolog? Verh Dt Zool Ges 85.1:90

Scholtz G (1993) Teloblasts in decapod embryos: an embryonic character reveals the monophyletic origin of freshwater crayfishes (Crustacea, Decapoda). Zool Anz 230: 45-54

Scholtz G (1995a) Head segmentation in Crustacea - an immunocytochemical study. Zoology 98: 101-114

Scholtz G (1995b) Expression of the engrailed gene reveals nine putative segment-anlagen in the embryonic pleon of the freshwater crayfish Cherax destructor (Crustacea, Malacostraca, Decapoda). Biol Bull 188:157-165

Scholtz G (1997a) Introduction: Cell lineage and cell fate in animals. Semin Cell Dev Biol 8: 339-340

Scholtz G (1997b) Cleavage, germ band formation, and head segmentation: the ground pattern of the Euarthropoda. In: Fortey RA and Thomas RH (Hrsg) Arthropod relationships. SASS vol. 55, Chapman and Hall, London, pp 317-332

Scholtz G, Dohle W, Sandeman R, Richter S (1993) Expression of engrailed can be lost and regained in cells of one clone in crustacean embryos. Int J Dev Biol 37: 299-304


96

Scholtz G, Patel NH, Dohle W (1994) Serially homologous engrailed stripes are generated via different cell lineages in the germ band of amphipod crustaceans (Malacostraca, Peracarida). Int J Dev Biol 38: 471-478

Scholtz G, Dohle W (1996) Cell lineage and cell fate in crustacean embryos - a comparative approach. Int J Dev Biol 40: 211-220

Shain DH, Ramirez-Weber FA, Hsu J, Weisblat DA (1998) Gangliogenesis in leech: morphogenetic processes leading to segmentation in the central nervous system. Dev Genes Evol 208: 28-36

Shepherd D, Bate CM (1990) Spatial and temporal patterns of neurogenesis in the embryo of the locust (Schistocerca gregaria). Development 108: 83-96

Siegler MVS, Pankhaniya RR (1997) Engrailed protein is expressed in interneurons but not motor neurons of the dorsal unpaired median group in the adult grasshopper. J Comp Neurol 388: 658-668

Skiba F, Schierenberg E (1992) Cell lineages, developmental timing, and spatial pattern formation in embryos of free-living soil nematodes. Dev Biol 151: 597-610

Sommer R, Carta LK, Sternberg PW (1994) The evolution of cell lineages in nematodes. Development 1994 Supplement: 85-95

Strindberg H (1913) Embryologische Studien an Insekten. Z wiss Zool 106: 1-227

Strömberg JO (1967) Segmentation and organogenesis in Limnoria lignorum Rathke (Isopoda). Ark Zool 20: 51-139

Sulston JE, Schierenberg E, White JG, Thomson JN (1983) The embryonic cell lineage of the nematode Caenorhabditis elegans. Dev Biol 100: 64-119

Sutton S (1972) Woodlice. Pergamon Press, Oxford

Swalla BJ, Jeffery WR (1996) Requirement of the Manx gene for expression of chordate features in a tailless ascidian larva. Science 274: 1205-1208

Tamarelle M, Haget A, Ressouches A (1985) Segregation, division and early patterning of lateral thoracic neuroblasts in the embryos of Carausius morosus Br. (Phasmida: Lonchodidae). Int J Insect Morphol Embryol 14: 307-317

Telford MJ, Thomas RH (1998) Expression of homeobox genes shows chelicerate arthropods retain their deutocerebral segment. Proc Natl Acad Sci USA 95: 10671-10675

Tessier-Lavigne M, Goodman CS (1996) The molecular biology of axon guidance. Science 274: 1123-1133

Thomas JB, Bastiani, MJ, Bate M, Goodman CS (1984) From grasshopper to Drosophila: a common plan for neuronal development. Nature 310: 203-207.

Thomas JB, Crews S, Goodman CS (1988) Molecular genetics of the single-minded locus: a gene involved in the development of the Drosophila nervous system. Cell 52: 133-141

Thompson KJ, Siegler MV (1991) Anatomy and physiology of spiking local and intersegmental interneurons in the median neuroblast lineage of the grasshopper. J Comp Neurol 305: 659-675

Thompson KJ, Siegler MV (1993) Development of segment specificity in identified lineages of the grasshopper CNS. J Neurosci 13: 3309-3318

Tiegs OW (1941) The embryology and affinities of the Symphyla, based on a study of Hanseniella agilis. Q J Micr Sci 82: 1-225


97

Tiegs OW (1947) The embryology and affinities of the Pauropoda, based on a study of Pauropus silvaticus. Q J Micr Sci 88: 165-267, 275-336

Truman JW, Ball EE (1998) Patterns of embryonic neurogenesis in a primitive wingless insect, the silverfish, Ctenolepisma longicaudata: comparison with those seen in flying insects. Dev Genes Evol 208: 357-368

Udolph G, Prokop A, Bossing, T, Technau GM (1993) A common precursor for glia and neurons in the embryonic CNS of Drosophila gives rise to segment-specific lineage variants. Development 118: 765-775

Ullmann SL (1964) The origin and structure of the mesoderm and the formation of the coelomic sacs in Tenebrio molitor L. (Insecta, Coleptera). Phil Trans R Soc Lond B 248: 245-277

Vehling D (1994) Die Entwicklung des postnauplialen Keimstreifs von Porcellio scaber. Eine zellgenealogische Studie. Diplomarbeit, FU Berlin

Vincent J-P, O'Farrell PH (1992) The state of engrailed expression is not clonally transmitted during early Drosophila development. Cell 68: 923-931

Voronov DA, Panchin YV, Spiridonov SE (1998) Nematode phylogeny and embryology. Nature 395: 28

Wallstabe P (1908) Beiträge zur Kenntnis der Entwicklungsgeschichte der Araneinen. Die Entwicklung der äußeren Form und Segmentierung. Zool Jb Anat 26: 683-712

Wedeen CJ, Kostriken RG, Leach, D, Whitington P (1997) Segmentally iterated expression of an engrailed-class gene in the embryo of an australian onychophoran. Dev Genes Evol 207: 282-286

Weisblat DA, Wedeen CJ, Kostriken R (1993) Evolutionary conservation of developmental mechanisms. Comparisons of annelids and arthropods. In: Spradling A (Hrsg) Evolutionary conservation of developmental mechanisms. Wiley-Liss, New York, pp 125-141

Westheide W (1996) Articulata. In: Westheide W, Rieger R (Hrsg) Einzeller und Wirbellose Tiere. Fischer, Stuttgart, pp 350-352

Weygoldt P (1964) Vergleichend-embryologische Untersuchungen an Pseudoscorpionen (Chelonethi). Z Morph Ökol Tiere 54: 1-106

Weygoldt P (1975) Untersuchungen zur Embryologie und Morphologie der Geißelspinne Tarantula marginemaculata C. L. Koch (Arachnida, Amlypygi, Tarantulidae). Zoomorphologie 82: 137-199

Wheeler WM (1891) Neuroblasts in the arthropod embryo. J Morph 4: 337-343

Wheeler WM (1893) A contribution to insect embryology. J Morphol 8: 1-160

Whitington PM (1995) Conservation versus change in early axonogenesis in arthropod embryos: a comparison between myriapods, crustaceans and insects. In: Breidbach O, Kutsch W (Hrsg) The nervous system of invertebrates: an evolutionary and comparative approach. Birkhäuser, Basel, pp 181-219

Whitington PM (1996) Evolution of neural develoment in arthropods. Semin Cell Dev Biol 7: 605-614

Whitington PM, Meier T, King P (1991) Segmentation, neurogenesis and formation of early axonal pathways in the centipede Ethmostigmus rubripes (Brandt). Roux's Arch Dev Biol 199: 349-363

Whitington PM, Leach D, Sandeman R (1993) Evolutionary change in neural development within the arthropods: axonogenesis in the embryos of two crustaceans. Development 118: 449-461


98

Whitington PM, Harris K-L, Leach D (1996) Early axonogenesis in the embryo of a primitive insect, the silverfish Ctenolepisma longicaudata. Roux's Arch Dev Biol 205: 272-281

Wiegner O, Schierenberg E (1998) Specification of gut cell fate differs significantly between the nematodes Acrobeloides nanus and Caenorhabditis elegans. Dev Biol 204: 3-14

Wiens TJ, Wolf H (1993) The inhibitory motor neurons of crayfish thoracic limbs: identification, structures, and homology with insect common inhibitors. J Comp Neurol 336: 261-278

Winter G (1980) Beiträge zur Morphologie und Embryologie des vorderen Körperabschnitts (Cephalosoma) der Pantopoda Gerstaecker, 1863. I. Zur Entstehung des Zentralnervensystems. Z zool Syst Evolut forsch 18: 27-61

Yasuo H, Satoh N (1998) Conservation of the developmental role of Brachyury in notochord formation in a urochordate, the ascidian Halocynthia roretzi. Dev Biol 200: 158-170


99

Bibliographie Teil 2

Folgende Publikation ist unter Beteiligung des Verfassers im Rahmen der Dissertation entstanden:

M Gerberding, G Scholtz (1999) Cell lineage of the midline cells in the amphipod crustacean Orchestia cavimana (Crustacea, Malacostraca) during formation and separation of the germ band. Dev Genes Evol 209: 91-102

Bibliographie Teil 3

Folgende Publikationen sind unter Beteiligung des Verfassers unabhängig von der Dissertation entstanden:

R Menzel, UC Gaio, M Gerberding, EA Nemrava, S Wittstock (1993) Formation of long-term olfactory memory in honey bees does not require protein synthesis. Naturwissenschaften 80: 380-382

M Gerberding (1997) Germ band formation and early neurogenesis of Leptodora kindti (Cladocera): first evidence for neuroblasts in entomostracan crustaceans. Inv Repr Dev 32: 63-73

G Scholtz, B Mittmann, M Gerberding (1998) The pattern of Distal-less expression in the mouthparts of crustaceans, myriapods and insects: new evidence for a gnathobasic mandible and the common origin of Mandibulata. Intern J Dev Biol 42: 801-810


[Titelseite] [Danksagung] [1] [2] [3] [4] [5] [Bibliographie] [Abkürzungsverzeichnis] [Lebenslauf] [Selbständigkeitserklärung]

© Die inhaltliche Zusammenstellung und Aufmachung dieser Publikation sowie die elektronische Verarbeitung sind urheberrechtlich geschützt. Jede Verwertung, die nicht ausdrücklich vom Urheberrechtsgesetz zugelassen ist, bedarf der vorherigen Zustimmung. Das gilt insbesondere für die Vervielfältigung, die Bearbeitung und Einspeicherung und Verarbeitung in elektronische Systeme.

DiML DTD Version 2.0
Zertifizierter Dokumentenserver
der Humboldt-Universität zu Berlin
HTML - Version erstellt am:
Tue Apr 25 19:05:46 2000