Functional conservation of yeast mtTFB despite extensive sequence divergence.

Transcription of mtDNA in the yeast S. cerevisiae depends on recognition of a consensus nonanucleotide promoter sequence by mtRNA polymerase acting with a 40-kDa dissociable factor known as mtTFB or Mtflp. mtTFB has been cloned and characterized in S. cerevisiae, but has not been studied in similar detail in any other organism. Although it is known that mitochondrial transcription in the dairy yeast, Kluyveromyces lactis, initiates within the same consensus promoter sequence used in S. cerevisiae, no previous studies have focused on the proteins involved in transcription initiation in K. lactis. In this article, we report the cloning of mtTFB from K. lactis and from a yeast more closely related to S. cerevisiae, S. kluyveri. Both novel mtTFB genes were able to substitute for the MTF1 gene in S. cerevisiae. Both proteins purified following expression in E. coli were able to support specific transcription initiation in vitro with the S. cerevisiae mtRNA polymerase. The S. kluyveri and K. lactis mtTFB proteins share only 56% and 40% identity with S. cerevisiae mtTFB, respectively. Alignments of the three mtTFB sequences did not reveal any regions larger than 30 amino acids with greater than 60% amino acid identity. In particular, regions proposed to show sequence similarity to bacterial sigma factors were not more highly conserved than other regions of the mtTFB proteins. All three yeast mtTFB genes lack conventional amino-terminal mitochondrial targeting sequences, suggesting that all three proteins may be imported into mitochondria by the same unusual mechanism reported for S. cerevisiae mtTFB.