Recovery of protein synthesis after heat shock: prior heat treatment affects the ability of cells to translate mRNA.

@article{Petersen1981RecoveryOP,
  title={Recovery of protein synthesis after heat shock: prior heat treatment affects the ability of cells to translate mRNA.},
  author={Nancy S. Petersen and Herschel K. Mitchell},
  journal={Proceedings of the National Academy of Sciences of the United States of America},
  year={1981},
  volume={78 3},
  pages={1708-11}
}
A mild heat shock at 35 degrees C, which induces heat shock gene expression, greatly enhances survival and the recovery of protein synthesis in Drosophila cells after a higher temperature heat shock. The 35 degrees C treatment is also effective in preventing heat-induced developmental defects in pupae. We show here that the major larval mRNAs are present in approximately normal (25 degrees C) concentrations after a 40.1 degrees C heat shock whether or not the animals receive a pretreatment… CONTINUE READING

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A mild heat shock at 35 degrees C , which induces heat shock gene expression , greatly enhances survival and the recovery of protein synthesis in Drosophila cells after a higher temperature heat shock .
A mild heat shock at 35 degrees C , which induces heat shock gene expression , greatly enhances survival and the recovery of protein synthesis in Drosophila cells after a higher temperature heat shock .
A mild heat shock at 35 degrees C , which induces heat shock gene expression , greatly enhances survival and the recovery of protein synthesis in Drosophila cells after a higher temperature heat shock .
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