A REGION OF THE C-TERMINAL PART OF THE 11-KDA SUBUNIT OF UBIQUINOL-CYTOCHROME-C OXIDOREDUCTASE OF THE YEAST SACCHAROMYCES-CEREVISIAE CONTRIBUTES TO THE STRUCTURE OF THE Q(OUT) REACTION DOMAIN
W. Hemrika et al., A REGION OF THE C-TERMINAL PART OF THE 11-KDA SUBUNIT OF UBIQUINOL-CYTOCHROME-C OXIDOREDUCTASE OF THE YEAST SACCHAROMYCES-CEREVISIAE CONTRIBUTES TO THE STRUCTURE OF THE Q(OUT) REACTION DOMAIN, European journal of biochemistry, 215(3), 1993, pp. 601-609
QCR8, the gene encoding the 11-kDa subunit of ubiquinol-cytochrome-c o
xidoreductase of the yeast Saccharomyces cerevisiae has been resequenc
ed in the course of a search for mutants disturbed in subunit function
. Resequencing shows that the previously published sequence [Maarse A.
C. & Grivell L. A. (1987) Eur J. Biochem 155, 419-425] lacks a C at p
osition 185 of the coding sequence. As a result of this extra nucleoti
de, the reading frame now contains 285 base pairs and it codes for a p
rotein of 94 amino acids with a calculated molecular mass of 11.0 kDa.
Despite the altered C-terminus, similarity to the corresponding beef
heart subunit is not significantly altered. One mutant (LTN1), arising
from hydroxylamine mutagenesis, has been studied in detail: Assembly
of the enzyme appears to be normal, as judged from the levels of the s
ubunits observed in Western blots, while spectral analysis showed that
only holo-cytochrome b was lowered to 70% of that of the wildtype. Me
asurement of the specific activity and calculation of the turnover num
ber of the enzyme showed that these were 45% and 56% of that of the wi
ld type, respectively.Further analysis of the mutant showed that the a
ffinity for the inhibitor myxothiazol was decreased, that the 11-kDa s
ubunit stabilises the enzyme once assembly has occurred, and that the
reduction of cytochrome b via the Q(out) site is impaired. Sequence an
alysis showed that this mutant carries a deletion of 12 nucleotides at
position 206-217 of the coding sequence, resulting in the replacement
of residues 69-73 (WWKNG) by a cysteine. These results are discussed
in terms of the 11-kDa subunit contributing to the conformation of the
Q(out) binding domain.