De-novo generation of mitochondrial DNA plasmids following cytoplasmic transmission of a degenerative disease in Ophiostoma novo-ulmi

A mitochondrial DNA plasmid was detected in an isolate of Ophiostoma novo-ulmi with a degenerative disease. The DNA plasmid was shown to be derived from the mitochondrial DNA and to map to a region corresponding to the large ribosomal RNA coding region. The DNA plasmid was not transmitted into sexual (ascospore) progeny, irrespective of whether the diseased isolate acted as the female or male parent. Transmission of the disease to healthy, plasmid-free, recipient isolates by hyphal anastomosis was not accompanied by transfer of mitochondrial DNA or DNA plasmid from the diseased donor isolate, but resulted in de-novo generation of different plasmids, derived from the recipient's mitochondrial DNA.     

A group-I intron in the mitochondrial small subunit ribosomal RNA gene of Sclerotinia sclerotiorum

A 1 380-bp intervening sequence within the mitochondrial small subunit ribosomal RNA (mt SSU rRNA) gene of the fungus Sclerotinia sclerotiorum has been sequenced and identified as a group-I intron. This is the first report of an intron in the mt SSU rRNA gene. The intron shows close similarity in secondary structure to the subgroup-IC2 introns from Podospora (ND3i1, ND5i2, and COIi5) and Neurospora (ND5i1). The intron has an open reading frame (ORF) that encodes a putative protein of 420 amino acids which contains two copies of the LAGLI-DADG motif. The ORF belongs to a family of ORFs identified in Podospora (ND3i1, ND4Li1, ND4Li2, ND5i2, and COIi5) and Neurospora (ND5i1). The putative 420-aa polypeptide is also similar to a site-specific endonuclease in the chloroplast large subunit ribosomal RNA (LSU rRNA) gene of the green alga Chlamydomonas eugametos. In each clone of S. sclerotiorum examined, including several clones which were sampled over a 3-year period from geographically separated sites, all isolates either had the intron or lacked the intron within the mt SSU rRNA gene. Screening by means of Southern hybridization and PCR amplification detected the intron in the mt SSU rRNA genes of S. minor, S. trifoliorum and Sclerotium cepivorum, but not in other members of the Sclerotiniaceae, such as Botrytis anamorphs of Botryotinia spp., or in other ascomycetous and basidiomycetous fungi.     

The gene for the large (16S) ribosomal RNA from the Locusta migratoria mitochondrial genome

Summary The nucleotide sequence of a segment of the mtDNA molecule of the locust Locusta migratoria containing the complete large rRNA (16S) gene and some nucleotides in its vincinity has been determined. The gene contains 1314 nucleotides, comprising the smallest metazoan gene reported to date. The gene has a low content of GC (21%) and exhibits an extended sequence homology to the corresponding gene of the dipteran insect Drosophila yakuba, suggesting a comparable secondary structure. The gene structure is discussed in an evolutionary and functional context.     

The nucleotide sequence of the small subunit ribosomal RNA gene from Symbiodinium pilosum,a symbiotic dinoflagellate

Summary The complete sequence of the small subunit ribosomal RNA (SSU rRNA) gene was determined for the symbiotic dinoflagellate Symbiodinium pilosum. This sequence was compared with sequences from two other dinoflagellates (Prorocentrum micans and Crypthecodinium cohnii), five Apicomplexa, five Ciliata, five other eukaryotes and one archaebacterium. The corresponding structurally conserved regions of the molecule were used to determine which portions of the sequences could be unambiguously aligned. Phylogenetic relationships were inferred from an analysis of distance matrices, where pair-wise distances were determined using a maximum likelihood model for transition and transversion ratios, and from maximum parsimony analysis, with bootstrap resampling. By either analytical approach, the dinoflagellates appear distantly related to prokaryotes, and are most closely related to two of the Apicomplexa, Sarcocystis muris and Theileria annulata. Among the dinoflagellates, C. cohnii was found to be more closely affiliated with the Apicomplexa than either P. micans or S. pilosum.     

Constitutive homologous recombination between mitochondrial DNA and a linear mitochondrial plasmid in Physarum polycephalum

Summary In one particular myxamoebal strain (NG7; mF⁺) of Physarum polycephalum, a linear mitochondrial plasmid (mF plasmid) which promotes mitochondrial fusion has been identified. A mating between mF^- strains, that do not carry the mF plasmid, resulted in uniparental inheritance of the mtDNA. In matings between mF⁺ and mF^- strains a recombination occurred between the mtDNA and the mF plasmid, and recombinant mtDNA was generated with the end of the mF plasmid as its ends. The DNA sequences of the recombination site in the mtDNA and the mF plasmid, and of the recombinant mtDNA, revealed that the mF plasmid had a 473-bp sequence that was identical to, but slightly shorter than, a 477-bp sequence of the mtDNA. This so-called identical sequence was found at the junction between unique sequences of the mF plasmid and the mtDNA in the recombinant mtDNA. Thus, the recombination between the mtDNA and the mF plasmid was due to reciprocal crossing-over at the identical sequence.     

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.     

Isolation and sequence analysis of the small subunit ribosomal RNA gene from the euryhaline yeast Debaryomyces hansenii

Summary The small subunit ribosomal RNA gene (SSU rDNA) from the euryhaline yeast Debaryomyces hansenii has been isolated and sequenced. After appropriate alignment of this sequence with SSU rDNA sequences from 30 other taxa, phylogenetic reconstruction using distance matrix and maximum parsimony methods indicates that D. hansenii is most closely affiliated with Candida albicans, and occurs in the cluster of the yeasts Saccharomyces cerevisiae, Torulaspora delbruekii, Candida glabrata, and Kluyveromyces lactis. It appears that the capacity to tolerate high salt is independent of phylogenetic affiliations based on SSU rDNA analyses.     

Three mitochondrial unassigned open reading frames of Podospora anserina represent remnants of a viral-type RNA polymerase gene

The mitochondrial DNA of Podospora anserina is complex, consisting of a characteristic set of genes with a large number of introns and a substantial amount of sequence of unknown function and origin. In addition, as indicated by various types of reorganization, this genome is highly flexible. Here we report the identification of three unassigned mitochondrial open reading frames (ORF P', ORF Q', ORF 11) as remnants of a rearranged viral-type RNA polymerase gene. These ORFs are not transcribed and may be derived from the integration of a linear plasmid of the type recently identified in a mutant of P. anserina.     

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.     

Organisation and sequence analysis of nuclear-encoded 5s ribosomal RNA genes in cryptomonad algae

Southern hybridisation, polymerase chain reaction (PCR), and nucleotide sequence, data indicate that the 5s ribosomal RNA (rRNA) gene is linked to the main rRNA gene repeat in the nuclear genome of four cryptomonad algae (Rhinomonas pauca, Storeatula major, Komma caudata, and isolate cs 134). The 5s gene is apparently transcribed in the same direction as the large and small subunit rRNA genes. The intergenic spacer between the 5s gene and the large subunit rRNA gene exhibits length and sequence polymorphism among the different species. Cryptomonads contain two different eukaryotic genomes: the host nucleus and the nucleus of a eukaryotic endosymbiont. Mapping experiments with isolated chromosomes of the host and endosymbiont genomes showed that the intergenic spacer between the large subunit and the 5s rRNA gene, which was amplified from total DNA by PCR, was derived from the host nuclear genome.     

Two transfer RNA sequences abut the large ribosomal RNA gene in Tetrahymena mitochondrial DNA: tRNAleu (anticodon UAA) and tRNAmet (anticodon CAU)

Summary The sequence of a 1,427 base pair restriction fragment, HaeIII fragment 6, of the ciliate protozoan Tetrahymena mitochondrial DNA, is presented. The first 780 nucleotide sequence aligns well with the terminal segment of the large rDNA sequence of Paramecium mitochondria. Immediately abutting this rDNA termination sequence, a tRNA sequence was found with anticodon UAA for leucine. The derived tRNA sequence is 81 bases long without the 3 CCA end, has a high G+C content of 48.1%, and can be folded into a normal cloverleaf structure with mostly conserved bases and normal stems and loops. The tRNA sequence found at an analogous position of the Paramecium mitochondrial DNA is tRNA^tyr. Following a highly A+T rich sequence of 300 base pairs, another tRNA-like sequence is present; this putative tRNA has only 67 bases with anticodon CAT (Met) and forms standard aminoacyl, anticodon and TC stems with a conventional TC loop. However, the DHU loop and stem are unusually short and irregular; the base at position 8 is G instead of T; and the base following the anticodon, which is normally a purine, is T. The significance of these tRNA structures is discussed.     

A mitochondrial reading frame which may code for a second form of ATPase subunit 9 in Aspergillus nidulans

Summary The nucleotide sequence of a 74 codon reading frame from the Aspergillus nidulans mitochondrial genome is presented. The derived amino acid sequence displays typical features of dicyclohexylcarbodiimide (DCCD) binding proteins and is 84% homologous with a mitochondrial reading frame that potentially encodes an ATPase subunit 9 polypeptide in Neurospora crassa. However, in A. nidulans, as in N. crassa, there is strong biochemical and genetic evidence that this subunit is in fact nuclearly-encoded. In both organisms the DCCD-binding protein found in the F₀ complexes of mitochondria from actively-growing cultures is almost certainly the product of this nuclear gene, and definitely not that of the mitochondrial reading frame. The discovery of an intact open reading frame than can code for a DCCD-binding protein in the mitochondrial genome of a second species of filamentous fungus strenghthens the possibility that the presence of a mitochondrial version of this gene has some biological significance.     

Polymorphism for ribosomal RNA gene arrangement in the mitochondrial genome of fall rye (Secale cereale L.)

A restriction-fragment-length polymorphism (RFLP) in mitochondrial DNA (mtDNA) was detected between varieties of fall rye (Secale cereale L.) by Southern hybridization with rrn18, the gene encoding the mitochondrial 18S ribosomal RNA. Restriction mapping showed that the RFLP is based on differing numbers of genomic contexts (one vs three) for a recombining-repeat element (the 18S/5S repeat). From examination of other Secale species, we conclude that the one-context state arose relatively recently, putatively by deletion of two of an ancestral set of three distinct genomic loci containing the mitochondrial 18S/5S repeat. This is consistent with our earlier conclusion that the 18S/5S repeat has probably existed in at least two genomic copies throughout much of the history of the grass family (at least 40 million years). Interestingly, the intervarietal difference in the number of distinct rrn18 loci is not accompanied by a major difference in the number of rrn18 copies per unit mass of mtDNA. This suggests the existence of a mechanism that can compensate rather precisely for differences in mitochondrial gene dosage, perhaps by over-replication or stabilization of specific subgenomic molecules.     

Sequence analysis of a Papaver somniferum L. mitochondrial DNA fragment promoting autonomous plasmid replication in Saccharomyces cerevisiae and Kluyveromyces lactis

The minimal fragment of mitochondrial DNA from Papaver somniferum L. (poppy) able to promote autonomous plasmid replication in the yeast Saccharomyces cerevisiae was sequenced. Sequence analysis of the 917-bp MK4/8 DNA fragment revealed a high AT content, and the presence of two 12-bp sequences differing from the ARS core consensus of S. cerevisiae only by a T and C insertion, respectively. The mitochondrial insert contains a further six 11-bp sequences with one mismatch to the S. cerevisiae core consensus, more then 20 related sequences with two base pair exchanges, numerous direct and inverted repeats, and many copies of a sequence motif called the ARS box. The original 4.2-kb mitochondrial DNA fragment, as well as the minimal 917-bp subfragment in vector pFL1-E (a variant of YIP5, lacking an origin of replication in yeast), were then tested for their ability to replicate autonomously in another fungus, Kluyveromyces lactis.     

Physical organization of the 18S and 5S ribosomal RNA genes in the mitochondrial genome of rye (Secale cereale L.)

Summary The mitochondrial 18S and 5S ribosomal RNA (rRNA) genes of rye, plus a total of about 90 kilobase pairs of flanking DNA, have been cloned and maps of restriction enzyme cleavage sites have been constructed. Like their homologs from hexaploid wheat, the rye genes are closely linked and are part of a three-copy family of recombining repeats (the 18S/5S repeat). The rye repeat probably also contains a mitochondrial tRNA^fMet gene, which the wheat repeat is known to carry. However, despite the overall organizational similarity between the wheat and rye 18S/5S repeats in the immediate vicinity of their coding regions, extensive rearrangement of flanking sequences has taken place during evolutionary divergence of the two species. Our data provide additional support for an emerging picture of plant mitochondrial genomes as evolving much more rapidly in structure than in sequence.     

The linear mitochondrial plasmid pAL2-1 of a long-lived Podospora anserina mutant is an invertron encoding a DNA and RNA polymerase

The molecular characterization of an additional DNA species (pAL2-1) which was identified previously in a long-lived extrachromosomal mutant (AL2) of Podospora anserina revealed that this element is a mitochondrial linear plasmid. pAL2-1 is absent from the corresponding wild-type strain, has a size of 8395 bp and contains perfect long terminal inverted repeats (TIRs) of 975 bp. Exonuclease digestion experiments indicated that proteins are covalently bound at the 5 termini of the plasmid. Two long, non-overlapping open reading frames, ORF1 (3,594 bp) and ORF2 (2847 bp), have been identified, which are located on opposite strands and potentially encode a DNA and an RNA polymerase, respectively. The ORF1-encoded polypeptide contains three conserved regions which may be responsible for a 3–5 exonuclease activity and the typical consensus sequences for DNA polymerases of the D type. In addition, an amino-acid sequence motif (YSRLRT), recently shown to be conserved in terminal proteins from various bacteriophages, has been identified in the amino-terminal part of the putative protein. According to these properties, this first linear plasmid identified in P. anserina shares all characteristics with invertrons, a group of linear mobile genetic elements.     

Evidence that the single CDC8 gene which encodes thymidylate kinase is involved in DNA replication,recombination and mutation in yeast

Summary The conditional cdc8 mutant is known to be defective, under restrictive conditions, in the elongation of DNA during synthesis. In yeast the CDC8 gene encodes thymidylate kinase. We show here that UV-induced gene conversion and gene mutation events require the participation of this CDC8 gene. Thus, the same thymidylate kinase is incolved both in DNA replication and in UV-induced gene conversion and gene mutation in yeast.