Tomala K, Korona R

Molecular chaperones recognize and bind destabilized proteins. This can be especially important for proteins whose stability is reduced by mutations. We focused our study on a major chaperone system, RAC-Ssb, which assists folding of newly synthesized polypeptides in the yeast cytosol. A sensitive phenotypic assay, the red color of Ade2 ...

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mutants, was used to screen for variants with metabolic activity dependent on RAC-Ssb. None of the Ade2 mutants were found to exhibit lower metabolic activity after inactivation of RAC-Ssb. In order to explicitly test the relationship between protein instability and activity of chaperones, a series of temperature sensitive Ade2 mutants were tested in the presence or absence of RAC-Ssb. The growth of Ade2(ts) mutants at elevated temperatures was enhanced if chaperones were missing. Similar pattern was found for thermally sensitive mutants of several other genes. Because RAC-Ssb normally supports the folding of proteins, it appears paradoxical that catabolic activity of mutants is reduced when these chaperones are present. We suggest that under non-stressful conditions, molecular chaperones are tuned to support folding of native proteins, but not that of mutated ones.

Date: Nov. 01, 2008

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