Abstract
In chironomid midges, the development of the head and thorax in the embryo requires the function of cytoplasmic determinants localized near the anterior pole of the egg. Experimental inactivation of these determinants causes a dramatic switch in the developmental program of the embryo. Instead of the normal segment pattern, the aberrant pattern “double abdomen” is formed. Head, thorax, and anterior abdominal segments are then replaced by an additional set of posterior abdominal segments jointed with reversed polarity to the original abdomen. To determine the cellular fraction which contains the effective targets for uv induction of double abdomens, Smittia eggs were centrifuged prior to uv irradiation. Accumulation of proteid spheres or lipid droplets in the irradiated anterior pole region caused a considerable decrease in the double abdomen yield. Removal of these components from the target area enhanced double abdomen formation. The maximum yield of double abdomens was obtained after uv irradiation of a cytoplasmic layer in which organelles larger than ribosomes could not be detected. The results of these and other experiments, suggest that ribosomes, ribosomal subunits, or other ribonucleoprotein particles act as effective targets for the uv induction of double abdomens in Smittia eggs.
Published Version
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