The control of protein synthesis during heat shock in Drosophila cells involves altered polypeptide elongation rates |
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Authors: | Dennis G. Ballinger Mary Lou Pardue |
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Affiliation: | Department of Biology Massachusetts Institute of Technology Cambridge, Massachusetts 02139 USA |
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Abstract: | When Drosophila tissue culture cells are shifted from 25 to 36°C (heat shocked) the pre-existing mRNAs (25°C mRNAs) remain in the cytoplasm but their translation products are underrepresented relative to the induced heat shock proteins. Many of these undertranslated 25°C mRNAs are found in association with polysomes of similar size in heat-shocked and control cells. Furthermore, the messages encoding α-tubulin, β-tubulin, and actin are found associated with one-third to one-half as many total ribosomes in heat-shocked cells as in cells incubated at 25°C. Increased temperature should lead to increased output of protein per ribosome. However, the 25°C proteins are actually synthesized at less than 10% of 25°C levels in heat-shocked cells. Thus, the rates of both elongation and initiation of translation are significantly (15- to 30-fold) slower on 25°C mRNAs than they are on heat shock mRNAs in heat-shocked cells. |
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