Summary
InSmittia embryos, anterior UV irradiation causes the formation of double abdomens in which head and thorax are replaced by a mirror-image duplication of abdominal segments. The transformation is ascribed to the inactivation of cytoplasmic ribonucleoprotein particles acting as anterior determinants. During the first 5 h after egg deposition (h.a.d.), high yields of double abdomens are produced by microbeam irradiation of a small target area (diameter 20 μm) behind the anterior pole. This localization coincides with a yolk-free cytoplasmic cone observed behind the anterior pole of newly depositedSmittia eggs (Zissler and Sander 1973). Irradiation of this area becomes less efficient between 5 and 7 h.a.d., while double abdomen yields increase after irradiation of adjacent target areas. A dramatic increase in the double abdomen yield is also observed after irradiation of the entire anterior surface. Under these conditions, the UV fluence required for a given yield decreases by a factor of 3.9 between 5.5. and 7 h.a.d. This can be explained quantitatively by the assumption that the effective targets move an average distance of 8 μ from the strongly absorbing endoplasm towards the egg surface. During the period of apparent target deshielding, the distance of nuclei from the egg surface actually decreases from 11 to 3 μm. However, the timing and direction of the nuclear migration and of the apparent deshielding differ, indicating that the shift of effective targets may be triggered by, but does not exactly follow, the nuclear movement. The data suggest that a major fraction of anterior determinants shifts from a small volume behind the anterior pole to a spread-out distribution over the surface of the anterior half.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Brown PM, Kalthoff K (1983) Pole cell formation inSmittia spec. (Chironomidae, Diptera). Action spectrum for UV-inhibition and photoreversibility. Dev Biol 97:113–122
Duspiva F (1981) RNP-particles in insect-eggs, candidates for the establishment of a morphogenetic gradient. Fortsch Zool 26:87–99
Freeman G (1979) The multiple roles which cell divisions can play in the localization of morphogenetic potential. In: Subtelny S., Konigsberg I (eds). Determinants of spatial organization. Academic Press, New York, pp 53–76
Jäckle H, Kalthoff K (1981) Proteins foretelling head and abdomen development in the embryo ofSmittia spec. (Chironomidae, Diptera). Dev. Biol 85:287–298
Jagger J (1977) Phototechnology and biological experimentation. In: Smith KC (ed) The science of photobiology, Plenum Press, New York, pp 1–26
Jeffery WR, Meier S (1983) A yellow crescent cytoskeletal domain in ascidian eggs and its role in early development. Dev Biol 96:125–143
Jeffery WR, Raff RA (1983) Space, time, and pattern in embryonic development. Liss, New York
Kalthoff K (1971a) Position of targets and period of competence for the UV-induction of the malformation “double abdomen” in the egg ofSmittia spec. (Diptera, Chironomidae). Wilhelm Roux Arch 168:63–84
Kalthoff K (1971b) Temperature effects on embryogenesis inSmittia spec. (Diptera, Chironomidae): Q10-values of normal development and frequency of “double abdomens” after UV irradiation. Wilhelm Roux Arch 168:85–96
Kalthoff K (1973) Action spectra for UV-induction and photoreversal of a switch in the developmental program of the egg of an insect (Smittia). Photochem Photobiol 18:355–364
Kalthoff K (1979) Analysis of a morphogenetic determinant in an insect embryo. In: Subtelny S, Konigsberg I (eds) Determinants of spatial organization. Academic Press, New York, pp 97–126
Kalthoff K (1983) Cytoplasmic determinants in Dipteran eggs. In: Jeffery WR, Raff RA (eds). Space, time, and pattern in embryonic development, Liss, New York, pp 313–348
Kalthoff K, Sander K (1968) Der Entwicklungsgang der Missbildung “Doppelabdomen” im partiell UV-bestrahlten Ei vonSmittia parthenogenetica (Diptera, Chironomidae). Wilhelm Roux Arch 161:129–146
Kalthoff K, Kandler-Singer I, Schmidt O, Zissler D, Versen G (1975) Mitochondria and polarity in the egg ofSmittia spec. (Diptera, Chironomidae): UV irradiation, respiration measurements, ATP determinations, and application of inhibitors. Wilhelm Roux Arch 178:99–121
Kalthoff K, Hanel P, Zissler D (1977) A morphogenetic determinant in the anterior pole of an insect egg (Smittia spec., Chironomidae, Diptera). Localization by combined centrifugation and UV irradiation. Dev Biol 55:285–305
Kalthoff K, Rau K-G, Edmond JC (1982) Modifying effects of UV irradiation on the development of abnormal body patterns in centrifuged insect embryos (Smittia spec., Chironomidae, Diptera). Dev Biol 91:413–422
Lohs-Schardin M (1982) Dicephalic: ADrosophila mutant affecting polarity in follicle organization and embryonic patterning. Wilhelm Roux Arch 191:28–36
Nüsslein-Volhard C (1979) Maternal effect mutations that---the spatial coordintes of theDrosophila embryo. In: Subtelny S (ed) Determinants of Spatial Organization. Academic Press, New York, pp 185–211
Perondini ALP, Gutzeit H, Mori L, Sander K (1982) Induktion von “Doppelabdomen’ und die Differenzierung anterioren Polplasmas in Embryonen vonSciara. Verh Dtsch Zool Ges 75:244
Ripley S, Kalthoff K (1981) Double abdomen induction with low UV doses inSmittia spec. (Chironomidae, Diptera): Sensitive period and complete photoreversibility. Wilhelm Roux Arch 190:49–54
Subtelny S, Konigsberg I (1979) Determinants of spatial organization. Academic Press, New York
Wacker KL, Kalthoff K (1984)Double abdomen, a spontaneous mutation inChironomus spec. affecting embryonic segment pattern and polarity. [in preparation]
Wiemann-Weiss D, Emmerich H, Duspiva F (1983) Immunofluorescent distribution of postribosomal particles during oogenesis and early development of an insect (Dysdercus intermedius, Heteroptera, Pyrrho.) Wilhelm Roux Arch 192:53–61
Yajima H (1983) Production of longitudinal double formation by centrifugation or by UV-partial irradiation in theChironomus samoensis egg. Entomol Gener 8:171–191
Zalokar M, Erk I (1976) Division and migration of nuclei during early embryogenesis ofDrosophila melanogaster. J Micr Biol Cell 25:97–106
Zissler D, Sander K (1973) The cytoplasmic architecture of the egg cell ofSmittia spec. (Diptera, Chironomidae). I. Anterior and posterior pole regions. Wilhelm Roux Arch 172:175–186
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Ripley, S., Kalthoff, K. Changes in the apparent localization of anterior determinants during early embryogenesis (Smittia spec., Chironomidae, Diptera). Wilhelm Roux' Archiv 192, 353–361 (1983). https://doi.org/10.1007/BF00848816
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00848816