The in vivo effect of acriflavine on mitochondrial functions in the petite negative yeast Hansenula saturnus

Summary In the petite negative yeast Hansenula saturnus, acriflavine determined a decrease of cell yield and of the total Q_O2,the disappearance of the cytochromes aa ₃ and b and the inhibition of in vivo mitochondrial protein synthesis without affecting the cell survival. The restriction enzymes analysis of mitDNA shows that no specific fragmentation occurred after acriflavine treatment.     

The complete DNA sequence of the mitochondrial genome of Podospora anserina

Summary The complete 94,192 bp sequence of the mitochondrial genome from race s of Podospora anserina is presented (1 kb=10³ base pairs). Three regions unique to race A are also presented bringing the size of this genome to 100,314 bp. Race s contains 31 group I introns (33 in race A) and 2 group II introns (3 in race A). Analysis shows that the group I introns can be categorized according to families both with regard to secondary structure and their open reading frames. All identified genes are transcribed from the same strand. Except for the lack of ATPase 9, the Podospora genome contains the same genes as its fungal counterprts, N. crassa and A. nidulans. About 20% of the genome has not yet been identified. DNA sequence studies of several excision-amplification plasmids demonstrate a common feature to be the presence of short repeated sequences at both termini with a prevalence of GGCGCAAGCTC.     

Preparation of yeast mitochondrial DNA for direct sequence analysis

We describe two simple protocols for preparation of templates for direct sequencing of yeast mitochondrial DNA (mtDNA) by automatic DNA analyzers. The protocols work with a range of yeast species and yield a sufficient quantity and quality of the template DNA. In combination with primer-walking strategy, they can be used either as an alternative or a complementary approach to shot-gun sequencing of random fragment DNA libraries. We demonstrate that the templates are suitable for re-sequencing of the mtDNA for comparative analyses of intraspecific variability of yeast strains as well as for primary determination of the complete mitochondrial genome sequence.     

The complete DNA sequence of the mitochondrial genome of the dermatophyte fungus Epidermophyton floccosum

We report here the complete nucleotide sequence of the 30.9-kb mitochondrial genome of the dermatophyte fungus Epidermophyton floccosum. All genes are encoded on the same DNA strand and include seven subunits of the reduced nicotinamide adenine dinucleotide ubiquinone oxireductase (nad1, nad2, nad3, nad4, nad4L, nad5, and nad6), three subunits of cytochrome oxidase (cox1, cox2, and cox3), apocytochrome b (cob), three subunits of ATP synthase (atp6, atp8, and atp9), the small and large ribosomal RNAs (rns and rnl), and 25 tRNAs. A ribosomal protein gene (rps5) is present as an intronic ORF in the large ribosomal subunit. The genes coding for cob and cox1 carry one intron and nad5 carries two introns with ORFs. The mtDNA of E. floccosum has the same gene order as Trichophyton rubrum mtDNA, with the exception of some tRNA genes. Maximum likelihood phylogenetic analysis confirms T. rubrum as a close relative of E. floccosum. This is the first complete mitochondrial sequence of a species of the order Onygenales. This sequence is available under GenBank accession number AY916130.     

Mitochondrial DNA of Chlamydomonas reinhardtii: the ND4 gene encoding a subunit of NADH dehydrogenase

Summary The ND4 gene encoding a subunit of respiratory NADH dehydrogenase has been identified on the linear 15.8 kb mitochondrial DNA of Chlamydomonas reinhardtii. The gene maps downstream of ND5. The 1,332 bp nucleotide sequence presented is the first complete reported ND4 sequence from a photoautotrophic organism. The deduced protein of 443 amino acid residues shows 34%, 29% and 27% homology to the protein sequences of Aspergillus amstelodami, Drosophila yakuba and mouse, respectively. ND4 is the fifth and last mitochondrial gene of the NADH dehydrogenase complex on the 15.8 kb mitochondrial genome of C. reinhardtii.     

The subunit I of the respiratory-chain NADH dehydrogenase from Cephalosporium acremonium: the evolution of a mitochondrial gene

Summary A Cephalosporium acremonium mitochondrial gene equivalent to human URF1 has been identified. The primary structure of the protein is highly homologous to its human (39%) and A. nidulans (66%) counterparts. Hydrophobicity profiles and predicted secondary structures are also very similar suggesting that this gene codes for the subunit I of the respiratory-chain NADH dehydrogenase. The nucleotide sequence of the gene, 70% homologous to the A. nidulans one, presents a high AT content (72%) and this fact is reflected in the codon usage.     

Behaviour of a replicating mitochondrial DNA sequence fromAspergillus amstelodami inSaccharomyces cerevisiae andAspergillus nidulans

Summary An amplified sequence of mitochondrial DNA from a ragged (rgd) mutant ofAspergillus amstelodami has been shown to exist in multimeric circular form, suggesting that it is excised from the genome and can exist independently of it. This sequence has replicative (ARS) activity inSaccharomyces cerevisiae, and a subfragment responsible for this activity has been identified and sequenced. A homologous sequence fromAspergillus nidulans mtDNA also has ARS activity inS. cerevisiae. BothA. amstelodami andA. nidulans ARS elements have been incorporated into the integrative transformation vector pDJBI and the derived vectors used to transformA. nidulans. Inclusion of theA. nidulans ARS element enhanced the transformation frequency 5-fold relative to pDJBI. No increase in transformation frequency was evident with the ARS element fromA. amstelodami. The stability of transformants was variable but in comparison to pDJBI, ARS-containing plasmids were mitotically unstable inA. nidulans. Although plasmid DNAs could be rescued inEscherichia coli from undigested transformant DNA, no freely replicating plasmids were detected by Southern hybridisation.     

Nucleotide sequence and determination of the extremities of the 26S ribosomal RNA gene in wheat mitochondria: evidence for sequence rearrangements in the ribosomal genes of higher plants

Summary The nucleotide sequence of the wheat mitochondrial 26S ribosomal RNA gene and flanking regions was determined and compared with mitochondrial 26S rRNA genes from maize and Oenothera. All three genes exhibit a high degree of homology except within two variable regions. When the plant mitochondrial 26S rRNA genes are compared with Escherichia coli 23S rRNA and chloroplast 23S and 4.5S rRNA genes, a third variable region is apparent close to the 3 end of the gene. The 5 and 3 ends of the wheat mitochondrial gene were determined by S1 nuclease mapping. Computer analysis of the wheat mitochondrial gene revealed several small sequences present either in the 5 region of the 26S rRNA gene or in the 18S rRNA gene.     

Cloning of a DNA fragment from Cephalosporium acremonium which functions as an autonomous replication sequence in yeast

Summary A fragment of DNA which functions as an autonomous replication sequence in yeast was cloned from Cephalosporium acremonium. Mitochondrial DNA (mtDNA) was isolated from an industrial strain of C. acremonium (08G-250-21) highly developed for the production of the antibiotic, cephalosporin C. Size, 27 kb, and restriction pattern indicated this DNA was identical to mtDNA previously isolated (Minuth et al. 1982) from an ancestral strain (ATTC 14553) which produces very low amounts of cephalosporin C. A 1.9 kb Pst1 fragment of the Cephalosporium mtDNA was inserted into a Pst1 site of the yeast integrative plasmid, Ylp5, to produce a 7.5 kb plasmid, designated pPS1. The structure of pPS1 was verified by restriction analysis and hybridization.PS1 transformed Saccharomyces cerevisiae (DBY-746) to uracil prototrophy at a frequency of 272 transformants/g DNA. Transformation frequencies of 715 transformants/g DNA and zero were obtained for the replicative plasmid, YRp7, and the integrative plasmid YIp5, respectively. Southern hybridization and transformation of E. coli by DNA from yeast transformed by pPS1 verified that pPS1 replicates autonomously in yeast.The uracil-independent pPS1-yeast transformants were mitotically unstable. The average retention of pPS1 after three days growth in selective and non-selective medium was 4.5% and 0.4%, respectively, compared to retentions of 4.6% and 0.5% for YRp7. The properties of pPS1 were compared to those of a related plasmid, pCP2. pCP2 was constructed (Tudzynski et al. 1982) by inserting the C. acremonium 1.9 kb Pst1 fragment into the yeast integrative plasmid, pDAM1.     

Characterization and sequence of lupin mitochondrial plasmid-like DNA

Summary Two minicircular DNAs of 1.2 kb (K1) and 1.4 kb (K2) were found in mitochondria of fertile lupin (Lupinus albus). The plasmid-like DNA, K1, was cloned, labelled and hybridized with mitochondrial DNA from three different species of lupin. We have found no evidence for integrated copies of K1 in any of the mitochondrial genomes probed in this study. No sequence homology between plasmid K1 and K2, and no homology of either with chloroplast DNA, has been detected. The K1 DNA is two-fold more abundant than the K2 DNA and about seven-fold more abundant than a unique segment of the mtDNA. The entire nucleotide sequence of the K1 DNA has been determined. This sequence exibits a 340 base pair region with highly organized repeats. The sequence of K1 shows no substantial homology with sequence of other mitochondrial plasmids of higher plants.     

Identification of an aspartate transfer RNA gene in maize mitochondrial DNA

Summary A gene for a transfer RNA (tRNA) specific for aspartic acid was identified in maize mitochondrial DNA. The nucleotide sequence and predicted secondary structure of this tRNA more closely resemble eubacterial and chloroplast aspartate tRNA genes than other mitocondrial aspartate tRNA genes. This gene is located on a 3,123 base pair EcoRl DNA fragment that also contains an elongator methionine tRNA gene. These two tRNA genes are separated by 726 nucleotides and are located on opposite strands of DNA.Paper No. 9755 of the Journal series of the North Carolina Agricultural Research Service, Raleigh     

MboI,ThaI and HinfI endonuclease cleavage maps of the yeast mitochondrial DNA

Summary MboI, HinfI and ThaI cleavage maps have been constructed for the region of the mitochondrial DNA from S. cerevisiae where transfer RNA genes are principally located. About 40 cleavage sites have been localized between the C and P genetic markers. The MboI map covers about 50% of the total mitochondrial genome. For constructing maps we have used a series of rho^– deletion mutants whose mitochondrial DNAs have a typical single deletion structure as judged by previous genetic and physical analyses. The mutant DNAs carry known transfer RNA genes and genetic markers and, therefore, the comparison between genetic and restriction maps has allowed us to localize individual transfer RNA genes within defined physical segments.Abbreviations bp base pairs - mtDNA mitochondrial DNA - tRNA transfer RNA - rRNA ribosomal RNA - ThaI formerly TacI     

The absence of introns in yeast mitochondria does not abolish mitochondrial recombination

Summary The respiratory competency of a yeast strain devoid of mitchondrial introns is quite normal. However, it may be asked whether intron-encoded proteins participate in metabolisms other than those of mitochondrial introns. Using strains without mitochondrial introns we have answered two questions. The first was: does the absence of intron-encoded proteins abolsh mitochondrial recombination? The second was: do mitochondrial introns and intron-encoded proteins play a part in mitochondrial DNA rearrangements induced by ethidium bromide (rho^- production)? We have shown that the introns and intron-encoded proteins are not essential essential components of either phenomenon.     

Molecular analysis of mitochondrial DNA and its inheritance in Epilobium

Summary The mitochondrial genome of four Epilobium species has been characterized by restriction analysis and hybridizations with gene probes from Oenothera. Mitochondrial DNA of Epilobium has a complex restriction fragment pattern and an estimated size of about 320 kb. All species exhibit specific restriction patterns. Plasmid-like DNA molecules of 0.3 kb to 1.2 kb are found in preparations of undigested nucleic acids of mitochondria from E. montanum, E. watsonii, and E. lanceolatum. In contrast, the mitochondria of E. hirsutum contain double-stranded RNAs of 2.7 kb. The location of the genes for cytochrome c oxidase subunits I and III on the mitochondrial DNA seems to be conserved in those species analyzed. However, the genes for subunit II of this complex, and for the alpha subunit of ATPase, are located on different restriction fragments in the mitochondrial genomes of certain species. The location of the COX II gene on different BamHI fragments in E. watsonii and E. lanceolatum has been used for the analysis of mitochondrial inheritance in reciprocal hybrids. Like the plastids, mitochondria are inherited maternally in Epilobium.Abbreviations kb kilobase pairs - mtDNA mitochondrial DNA     

Nucleotide sequence of the COX1 gene in Kluyveromyces lactis mitochondrial DNA: evidence for recent horizontal transfer of a group II intron

Summary The cytochrome oxidase subunit 1 gene (COX1) in K. lactis K8 mtDNA spans 8 826 bp and contains five exons (termed E1–E5) totalling 1 602 bp that show 88% nucleotide base matching and 91% amino acid homology to the equivalent gene in S. cerevisiae. The four introns (termed K1 cox1.1–1.4) contain open reading frames encoding proteins of 786, 333, 319 and 395 amino acids respectively that potentially encode maturase enzymes. The first intron belongs to group II whereas the remaining three are group I type B. Introns K1 cox1.1, 1.3, and 1.4 are found at identical locations to introns Sc cox1.2, 1.5a, and 1.5b respectively from S. cerevisiae. Horizontal transfer of an intron between recent progenitors of K. lactis and S. cerevisiae is suggested by the observation that K1 cox1.1 and Sc cox1.2 show 96% base matching. Sequence comparisons between K1 cox1.3/Sc cox1.5a and K1 cox1.4/Sc cox1.5b suggest that these introns are likely to have been present in the ancestral COX1 gene of these yeasts. Intron K1 cox1.2 is not found in S. cerevisiae and appears at an unique location in K. lactis. A feature of the DNA sequences of the group I introns K1 cox1.2, 1.3, and 1.4 is the presence of 11 GC-rich clusters inserted into both coding and noncoding regions. Immediately downstream of the COX1 gene is the ATPase subunit 8 gene (A8) that shows 82.6% base matching to its counterpart in S. cerevisiae mtDNA.EM BL Accession Number X57546     

Interaction between mitochondrial DNA and mitochondrial plasmids in Claviceps purpurea: analysis of plasmid-homologous sequences upstream of the IrRNA-gene

Homology of two linear, mitochondrial (mt) Claviceps purpurea plasmids, pC1K1 and pClT5, to the upstream region of the large ribosomal RNA gene in the mtDNA of three strains (W3, T5 and K) has been investigated in detail to explore the widespread phenomenon of homology between mt plasmids and mtDNA in C. purpurea. Sequence comparison indicates that recombination between free plasmids and mtDNA is the cause of the observed homology. The process is similar to the integration of the structurally related adenoviruses into the mammalian genome. As in other fungi, palindromic sequences seem to be involved in this mitochondrial recombination process.