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(Received for publication, November 16, 1995) The Neurospora crassa mutants, cyt-5-1 and cyt-5-4, have a cytochrome b- and aa
Volume 271,
Number 11,
Issue of March 15, 1996 pp. 6537-6544
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
A NUCLEAR-CODED MITOCHONDRIAL RNA POLYMERASE WITH A POLYGLUTAMINE
REPEAT
-deficient phenotype, suggesting that they
result from a deficiency in a nuclear-coded component of the
mitochondrial gene expression apparatus (Bertrand, H., Nargang, F. E.,
Collins, R. A., and Zagozeski, C. A.(1977) Mol. Gen. Genet. 153, 247-257). The complementing wild-type gene has been
cloned and sequenced, and shown to encode a protein with significant
sequence similarity to Saccharomyces cerevisiae mitochondrial
RNA polymerase and bacteriophage RNA polymerases. There are remarkable
differences between the N. crassa protein and its yeast
homologue, including a region of very little homology near the N
termini of the two gene products. The cyt-5 gene encodes a
stretch of polyglutamine in this region of unique sequence. In
addition, an acidic insertion (86 amino acids, of which 24 are Asp or
Glu and 10 are Arg or Lys) is present near the C terminus of the cyt-5 gene product. Transcript levels of the cytochrome b and cytochrome oxidase subunit III genes are severely reduced in cyt-5 mutants, suggesting a likely mechanism for the
cytochrome-deficient phenotype. In contrast, mitochondrial rRNAs
accumulate to nearly normal levels in cyt-5 mutants. However,
mitochondrial rRNA levels are not indicative of the rate of
transcription of the corresponding genes, since crude lysates of
mitochondria from cyt-5 mutants exhibit greatly reduced
transcriptional activity with a 19 S rRNA promoter. The cyt-5 gene is flanked by at least one gene whose product also may be
involved in mitochondrial function.
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