The oli1 gene and flanking sequences in mitochondrial DNA of Saccharomyces cerevisiae: the complete nucleotide sequence of a 1.35 kilobase petite mitochondrial DNA genome covering the oli1 gene

Abstract

As part of our genetic and molecular analysis of mutants of Saccharomyces cerevisiae affected in the oli1 gene (coding for mitochondrial ATPase subunit 9) we have determined the complete nucleotide sequence of the mtDNA genome of a petite (23-3) carrying this gene. Petite 23-3 (1,355 base pairs) retains a continuous segment of the relevant wild-type (J69-1B) mtDNA genome extending 983 nucleotides upstream, and 126 nucleotides downstream, of the 231 nucleotide oli1 coding region. There is a 15-nucleotide excision sequence in petite 23-3 mtDNA which occurs as a direct repeat in the wild-type mtDNA sequence flanking the unique petite mtDNA segment (interestingly, this excision sequence in petite 23-3 carries a single base substitution relative to the parental wild-type sequence). The putative replication origin of petite 23-3 is considered to lie in its single G,C rich cluster, which differs in just one nucleotide from the standard ori ^s sequence. The DNA sequences in the intergenic regions flanking the oli1 gene of strain J69-1B (and its derivatives) have been systematically compared to those of the corresponding regions of mtDNA in strains derived from the D273-10B parent (sequences from the laboratory of A. Tzagoloff). The nature and distribution of the sequence divergencies (base substitutions, base deletions or insertions, and more extensive rearrangements) are considered in the context of functions associated with mitochondrial gene expression which are ascribed to specialized sequences in the intergenic regions of the yeast mitochondrial genome.