Temperature sensitivity of muscle and neuron differentiation in embryonic cell cultures from the Drosophila mutant, shibirets1

Abstract

The sex-linked temperature-sensitive mutation, shibire ts1 , which causes, at the restrictive temperature, adult paralysis and pleiotropic morphological defects in embryonic, larval, and pupal development, has been shown to exhibit temperature-sensitive inhibition of differentiation in embryonic cultures in vitro. When shi cultures were incubated at 30°C for 24 hr, both muscle and neuron differentiation were inhibited more than 90% compared to control shi cultures incubated at 20°C. Heat shift experiments showed that the temperature-sensitive periods for neuron and muscle differentiation occurred at 11 to 18 and 14 to 16 hr, respectively, where zero time was the initiation of gastrulation in donor embryos. Short heat pulses (4 and 8 hr) which extended into the temperature-sensitive period resulted in moderate inhibition of differentiation; greater inhibition occurred as the duration of the pulses increased. In contrast, heating wild-type Oregon-R cultures at 30°C for 24 hr did not inhibit muscle cell differentiation and inhibited neuron differentiation relatively little. The temperature-sensitive period in shibire for muscle differentiation occurred well after myoblast division, during the period of myocyte elongation, aggregation, and fusion, whereas that for neuron differentiation took place during a period of enzyme synthesis (acetylcholinesterase and choline acetyltransferase) and axon elongation. Thus, the shi temperature-sensitive gene product affects at least two different cell types, in vitro, at different times during differentiation.