TEMPERATURE SENSITIVE SYNTHESIS OF TRANSFER-RNAS INVIVO IN SACCHAROMYCES CEREVISIAE

Dictyostelium discoideum tRNA genes can be expressed efficiently in vivo in yeast, and transcription products are processed to mature tRNAs. However, primary transcripts of a variant tRNA(Val)(UAC) gene are processing deficient under standard growth conditions (30°C), due to a slightly altered 5' flanking region. A stable extended amino acid acceptor stem, which seems to be required to compensate a G5-G68 mismatch, cannot form. This mismatch destabilizes secondary and probably tertiary structures to such an extent that recognition of processing enzyme(s) under normal conditions (30°C) is impaired. Growing yeast cells at reduced temperature (22°C) can phenotypically complement the processing defect. This observation provides a new concept for the temperature dependent expression of protein coding genes which carry a nonsense codon. Translation of corresponding messages can be controlled by products of a temperature sensitive su-tRNA gene. We successfully tested this concept with two amber suppressors derived from a tRNA(Glu)(UUC) gene from D. discoideum. One of the variant tRNA genes codes for a product with a destabilized amino acid acceptor stem. Primary transcripts of this particular su-tRNA(Glu)(CUA) gene are processed only at reduced growth temperatures and consequently function as temperature sensitive suppressors only under these conditions.