Physical and gene mapping of cauliflower (Brassica oleracea) mitochondrial DNA

Summary A physical map of the mitochondrial DNA isolated from B. oleracea (cauliflower) inflorescences was constructed with the restriction endonucleases Sall, Kpnl and Bgll. Physical mapping was made using the multi enzyme method with either unlabeled or labeled DNA fragments isolated by preparative electrophoresis and a clone bank prepared by inserting incomplete Sall restriction digests of mitochondrial DNA into a cosmid vector.The different mapping studies led to a circular map, about 217 kb in size, containing the entire sequence complexity of the genome. The 26S and 18S – 5S ribosomal RNA genes appeared to be separated by about 75 kb in this map. However, the particular cross-hybridization between several restriction fragments and the sequential diversity of some cosmids indicated that intra molecular recombination may occur naturally in higher plant mitochondria. Namely, one recombinational event resulted in the ribosomal RNA genes mapping closer together.Abbreviations mtDNA mitochondrial DNA - kb kilobasepairs - rRNA ribosomal RNA - LGT agarose low gelling temperature agarose     

Identification and isolation of the cytochrome oxidase subunit II gene in mitochondria of the yeast Hansenula saturnus

Summary Mitochondrial DNA from the petite negative yeast Hansenula saturnus has been isolated and sized by digestion with restriction enzymes. The size of the mitochondrial genome is approximately 47 kb. The gene for subunit II of cytochrome oxidase was localized in the genome by Southern blotting using a [³²P]-labeled probe containing the subunit II gene of the yeast Saccharomyces cerevisiae. The probe hybridized to a 1.7 kb HindIII-BamHI fragment under stringent conditions (65°C), indicating a high degree of homology between the S. cerevisiae and H. saturnus mitochondrial DNA fragments. The 1.7 kb fragment from H. saturnus was cloned into pBR322 and physically mapped. The map was used to obtain the nucleotide sequence of the subunit II gene (Lawson and Deters presented in the accompanying paper).     

Comparative analysis of the mitochondrial genomes of Chlamydomonas eugametos and Chlamydomonas moewusii

Summary We report the cloning and physical mapping of the mitochondrial genome of Chlamydomonas eugametos together with a comparison of the overall sequence structure of this DNA with the mitochondrial genome of Chlamydomonas moewusii, its closely related and interfertile relative. The C. eugametos mitochondrial DNA (mtDNA) has a 24 kb circular map and is thus 2 kb larger than the 22 kb circular mitochondrial genome of C. moewusii. Restriction mapping and heterologous fragment hybridization experiments indicate that the C. eugametos and C. moewusii mtDNAs are colinear. Nine cross-hybridizing restriction fragments common to the C. eugametos and C. moewusii mtDNAs, and spanning the entirety of these genomes, show length differences between homologous fragments which vary from 0.1 to 2.3 kb. A 600 bp subfragment of C. moewusii mtDNA, within one of these conserved fragments, showed no hybridization with the C. eugametos mtDNA. Of the 73 restriction sites identified in the C. eugametos and C. moewusii mtDNAs, five are specific to C. moewusii, eight are specific to C. eugametos and 30 are common to both species. Hybridization experiments with gene probes derived from protein-coding and ribosomal RNA-coding regions of wheat and Chlamydomonas reinhardtii mtDNAs support the view that the small and large subunit ribosomal RNA-coding regions of the C. eugametos and C. moewusii mtDNAs are interrupted and interspersed with each other and with protein-coding regions, as are the ribosomal RNA-coding regions of C. reinhardtii mtDNA; however, the specific arrangement of these coding elements in the C. eugametos and C. moewusii mtDNAs appears different from that of C. reinhardtii mtDNA.     

Extensive mitochondrial DNA variation in somatic tissue cultures initiated from wheat immature embryos

Summary Wheat mitochondria) DNA has been isolated from callus cultures initiated from both immature embryos and the corresponding parental cultivar. A Sall restriction pattern study has shown that the organization of callus culture mitochondria) DNA underwent extensive change, characterized by either the disappearance or the decrease in the relative stoichiometry of several restriction bands. Hybridization of labelled mitochondrial fragments obtained from a recombinant cosmid library to Southern blots of callus and parental line restricted mitochondria) DNAs has shown that a fraction of the mitochondria) genome was lost in callus cultures. Data from a Sall + HindIII restriction map of a defined part of the wheat mitochondria) genome concerned with some of these variations strongly suggest that the observed variations correspond to the disappearance of at least one mitochondria) DNA subgenomic molecule in callus cultures.Abbreviations mtDNA mitochondrial DNA - cpDNA chloroplast DNA - rRNA ribosomal RNA - mRNA messenger RNA - kb kilobase - cv cultivar     

Mitochondrial genome of the dimorphic zygomycete Mucor racemosus

Mitochondria were isolated from the dimorphic zygomycete Mucor racemosus by differential centrifugation. DNA from the organelles was purified by cesium chloride-ethidium bromide isopycnic centrifugation. Examination of the mitochondrial DNA by electron microscopy revealed a circular chromosome approximately 63.8 kbp in circumference. The chromosome was digested with restriction endonucleases and the resulting DNA fragments were separated by agarose-gel electrophoresis. Electrophoretic mobilities and stoichiometry of the fragments indicated a mixed population of mtDNA molecules each with a size of about 63.4 kbp. Physical maps were constructed from analyses of fragments generated in single and double restriction digests and from the hybridization of fragments to probes for the large and small mitochondrial rRNA genes from Saccharomyces cerevisiae. The Mucor mitochondrial chromosome was found to exist in the form of two flip-flop isomers with inverted repeat sequences encoding both rRNA genes.     

Molecular cloning and physical mapping of the Neurospora crassa 74-OR23-1A mitochondrial genome

Summary To provide for thorough sampling of the Neurospora crassa mitochondrial genome for evolutionary studies, recombinant plasmids containing each of the EcoRI digestion fragments of the genome were assembled and used to map the locations of 89 additional restriction endonuclease cleavage sites, representing 10 newly mapped enzymes and 2 previously unmapped HincII sites. Data used to locate new restriction sites were obtained from digestions of whole mitochondrial DNA, digestions of the cloned EcoRI mitochondrial DNA fragments and hybridizations between new restriction fragments and the cloned fragments. Length measurements of the total genome and of EcoRI fragment 1 are larger than commonly reported.     

The mitochondrial DNAs of Agaricus: heterogeneity in A. bitorquis and homogeneity in A. brunnescens

Summary Mitochondrial DNAs were isolated from four cultivated strains of the commercial two-spored mushroom Agaricus brunnescens (bisporus) and from ten isolates of the four spored mushroom Agaricus bitorquis. Digestion of the fungal mitochondrial DNA with restriction endonucleases yielded numerous fragments. Summation of the fragment sizes gave a mitochondrial DNA size of 98.3 ± 2.4 kilobases (kb) (64.9 x 10⁶ daltons) for A. brunnescens. The size of the mitochondrial DNA ranged from 148.5 ± 10.8 kb (98.0 x 10⁶ daltons) to 176.3 ± 12.0 kb (116.4 x 10⁶ daltons) for A. bitorquis. The restriction patterns, produced by a variety of endonucleases, were identical for all four isolates of A. brunnescens. The ten isolates of A. bitorquis demonstrated extensive restriction pattern heterogeneity and have been tentatively assigned into four groups. Approximately 60% of the A. bitorquis mitochondrial DNA restriction fragments show sequence homology with A. brunnescens mitochondrial DNA based on DNA — DNA hybridizations.     

Mitochondrial DNA of Endomyces (Dipodascus) magnusii

Mitochondrial DNA was isolated from a yeast-like microorganism, Endomyces (Dipodascus) magnusii. The mtDNA consisted of circular molecules 40.4 kb long. A restriction map was constructucted using the cleavage data of seven endonuclease. The arrangement of several genes within the mitochondrial genome of E. magnusii was established by specific hybridization with probes prepared from the mtDNA of Saccharomyces cerevisiae.     

Mitochondrial DNA of Chlamydomonas reinhardtii: the DNA sequence of a region showing homology with mammalian URF2

Summary A 1.27 kb DNA fragment of the 15 kb DNA of Chlamydomonas reinhardtii has been cloned and sequenced. A 906 bp long open reading frame was found showing homology with the URF2 genes of mammals and insects. This homology is functional evidence for Chlamydomonas reinhardtii 15 kb DNA representing indeed mitochondrial DNA. This is the first report of an URF2 gene in mitochondria of a photosynthetic organism. The absence of a TGA codon within the gene suggests that it is used as stop codon like in higher plants and not as tryptophan like in animal and fungal mitochondria.     

The mitochondrial genome of the basidiomycete Agrocybe aegerita: molecular cloning,physical mapping and gene location

Summary The mtDNA of a wild-type strain of Agrocybe aegerita was purified from mitochondria isolated by cellular fractionation. A representative library was constructed in E. coli by molecular cloning at the HindIII restriction site of pBR322. Southern hybridizations between total DNA of the fungal strain and cloned mitochondrial insert probes were used to establish the restriction map of the mtDNA molecule. Its size was assessed at about 80 500 bp. Four structural genes (for Cox 1, Cox 2, Atp 6, and Atp 8) were located on the map by heterologous hybridizations with oligonucleote probes specific for yeast mitochondrial genes. The location of the genes coding for the large and the small RNAs of the mitochondrial ribosome was determined by hybridization with the E. coli rrnB operon. A comparison of A. aegerita mtDNA organization with that of both phylogenetically close and distant fungi is discussed.     

Mitochondrial DNA of the filamentous ascomycete Cochliobolus heterostrophus

Summary The mitochondrial chromosome of Cochliobolus heterostrophus is a circle approximately 115 kb in circumference, among the largest known from fungi. A physical map of C. heterostrophus mtDNA was constructed using the restriction enzymes BamHI, EcoRI, and PvulI by DNA-DNA hybridizations with cloned or purified mtDNA BamHI fragments. The following sequences were located on the mtDNA map: (1) the large and small mitochondrial ribosomal RNA genes (identified by heterologous hybridization to cloned Neurospora crassa rRNA genes); (2) the sequence homologous to a mitochondrial plasmid present in one field isolate of C. heterostrophus; and (3) a 1.05 kb EcoRI fragment that functions as an autonomously replicating sequence in Saccharomyces cerevisiae. An examination of mtDNA from 23 isolates of C. heterostrophus collected worldwide revealed polymorphisms in restriction enzyme sites. One such polymorphism, coupled with data on a polymorphism in nuclear rDNA, suggests that there are two genetically distinct but geographically overlapping mating populations of C. heterostrophus in the world.     

A detailed restriction endonuclease cleavage map of rat liver mitochondrial DNA

Summary A restriction endonuclease cleavage map of rat liver mitochondrial DNA is presented for the following enzymes: Xba I, Bgl II, Hae II, Bam HI, Hpa I, Hha I, Bcl I, Hind II, Hind III, Eco RI, Hpa II, Hae III, and Sau 3A. It was derived from complete and partial digestions with these enzymes, double digestions, and redigestions of defined fragments obtained with one enzyme with other restriction enzymes. By the use of these and further enzymes (Taq YI, Alu I) the mitochondrial DNA (ca. 15.6 Kb) can be dissected into a large number of defined fragments.Abbreviations mtDNA mitochondrial DNA - bp or Kbp base pairs or kilo base pairs     

Physical and genetic map of the mitochondrial genome of Cryphonectria parasitica Ep155

 In the chestnut-blight fungus, Cryphonectria parasitica, a cytoplasmically transmissible (infectious) form of hypovirulence is associated with mitochondrial DNA (mtDNA) mutations that cause respiratory deficiencies. To facilitate the characterization of such mutations, a restriction map including the probable location of 13 genes was constructed for a relatively well-characterized virulent strain of the fungus, Ep155. The physical map is based on the order of all fragments generated by cleavage of the mtDNA by the PstI restriction endonuclease and includes some of the cleavage sites for HindIII, EcoRI, and XbaI. It was constructed from hybridization patterns of cloned mtDNA fragments with Southern blots of mtDNA digested with the four restriction enzymes. On this map, the probable locations of genes commonly found in the mitochondrial genomes of ascomycetes were determined by low-stringency hybridization of cloned Neurospora crassa mitochondrial gene probes to Southern blots of C. parasitica mtDNA. The data indicate that the mtDNA of strain Ep155 is a circular molecule of approximately 157 kbp and ranks among the largest mitochondrial chromosomes observed so far in fungi. The mtDNAs of 11 different C. parasitica isolates range in size from 135 to 157 kbp and in relatedness from 68 to 100 percent, as estimated from restriction-fragment polymorphisms. In addition to the typical mtDNA, the mitochondria of some isolates of the fungus contain double-stranded DNA plasmids consisting of nucleotide sequences not represented in the mtDNA of Ep155. Received: 19 September 1995/4 January 1996     

Mapping of mitochondrial DNA from Torulopsis glabrata

Summary Large and small rRNAs have been isolated from mitochondria of the yeast Torulopsis glabrata and have been shown to have lengths of 2,700 bases and 1,400 bases respectively. Construction of a restriction endonuclease site map of mitochondria) DNA has enabled us to position these rRNAs by hybridization of labelled RNA to DNA fragments transferred to nitrocellulose. The large and small mt rRNA genes are separated by a minimum of 1,820 by and a maximum of 2,765 by on the 18,870 by mitochondria1 genome. tRNA genes map within this separating sequence but they are also located distal to both rRNA genes. The implication of these results to the structural relationships of mitochondrial DNAs from yeasts is discussed.     

Analysis of a DNA segment from rat liver mitochondria containing the genes for the cytochrome oxidase subunits I,II and III,ATPase subunit 6, and several tRNA genes

Summary The sequence of a 6.24 kb DNA segment of the mitochondrial genome from rat liver has been determined. It comprises several genes coding for mitochondrial protein subunits and five tRNA genes in the following order: cytochrome oxidase subunit I — tRNA _(UCN) ^Ser —tRNA^Asp — cytochrome oxidase subunit II — tRNALys —ATPase subunit — cytochrome oxidase subunit III —tRNA^Gly — potential open reading frame — tRNA^Arg —two potential open reading frames. The tRNA genes were detected by a computer search programme. The assignments for the protein coding sequences were made through comparison with known sequences, mainly from the yeast mitochondrial proteins (e.g. Bonitz et al. 1980). Our data are discussed with regard to the features of gene arrangement, codon usage, and tRNA structure in mammalian mitochondria (Anderson et al. 1981).Abbreviations COX I, COX II, COX III mitochondrial cytochrome oxidase subunits I, II, and III - ATPase mitochondrial ATPase subunit 6 - U.R.F. unidentified reading frame (Anderson et al. 1981). Other abbreviations follow IUB-IUPAC conventions.     

Genic rearrangements in Phytophthora mitochondrial DNA

Summary To assess evolutionary relationships among the oomycetous fungi we have constructed a physical and genic map of the mtDNA of a broad host range strain (695T) of Phytophthora megasperma. While, like other Phytophthora species, this 43.5 kb circular genome lacks the typical oomycete large inverted repeat, a short 0.5–0.9 kb inverted repeat has been identified. Comparison of the relative order of seven genic regions with host-specific Phytophthora strains reveals both a clustering of these loci within one-third of the host-specific genomes, and two genic inversion relative to the broad host range genome. The location of the short inverted repeat suggests that at least one of the inversions is a consequence of intramolecular recombination between repeat elements.Abbreviations atp6, atp9 genes for ATP synthase subunits 6 and 9 - cox1. cox2. cox3 genes for cytochrome c oxidase subunits I, II, and III - cob gene for apocytochrome b - rns, rnl genes for small and large mitochondrial rRNAs - mtDNA mitochondrial DNA - kb kilobase pairs     

Mitochondrial DNA of Schizophyllum commune: restriction map,genetic map,and mode of inheritance

Summary Mitochondrial DNA (mtDNA) found in the basidiomycete Schizophyllum commune (strain 4–40) is a circular molecule 49.75 kbp in lenght. A physical map containing 61 restriction sites revealed no repeat structures. Cloned genes from Neurospora crassa, Aspergillus nidulans, and Saccharomyces cerevisiae were used in Southern hybridizations to locate nine mitochondrial genes, including a possible pseudogene of ATPase 9, on the restriction map. A probe from a functional ATPase 9 gene identified homologous fragments only in the nuclear genome of S. commune. Restriction fragment length polymorphisms (RFLPs) between mtDNA isolated from different strains of S. commune were used to show that mitochondria do not migrate with nuclei during dikaryosis.     

Molecular analysis of mitochondrial DNA from tomato cell suspension cultures

Summary Mitochondrial DNA (mtDNA) from Lycopersicon esculentum was purified from cell suspension cultures. The DNA, isolated from mitochondria purified by two successive sucrose density gradients, was uncontaminated with nuclear DNA or DNA from proplastids. The total molecular weights of BamHI, BglI, and BglII fragments indicate a mitochondrial genome size of at least 270 kb. Cross hybridization between tomato mtDNA and cloned spinach plastid genes revealed some homology. In hybridization experiments using cloned mitochondrial rRNA genes and BamHI digested total mtDNA the presence of recombination repeats is demonstrated.     

Assembly of the mitochondrial membrane system. Organization of yeast mitochondrial DNA in the Oli1 region

Summary The mitochondrial DNA (mtDNA) of a cytoplasmic petite mutant (DS401) of Saccharomyces cerevisiae genetically marked for the ATPase proteolipid, serine tRNA and varl genes has been characterized by restriction endonuclease analysis and DNA sequencing. The DS401 mtDNA segment is 5.3 kb long spanning the region between 79.1 and 86.8 units of the wild type genome. Most of the DS401 mtDNA consists of A+T rich sequences. In addition, however, there are ten short sequences with a high content of G+C and two sequences that have been identified as the ATPase proteolipid and the serine tRNA genes. The two genes map at 81 and 83 units and are transcribed from the same DNA strand. Even though there are other possible coding sequences in the DNA segment, none are sufficiently long to code for a gene product of the size of the varl protein. Based on the relative organization of the G+C rich clusters and genes, a model has been proposed for the processing of mitochondria) RNA. This model postulates the existence of mitochondrial double strand specific RNases that cleave the RNA at the G+C clusters.     

Mitochondrial DNA in the aquatic fungus Allomyces

Summary The mitochondrial DNA from seven species of the aquatic phycomycete Allomyces has been isolated and characterized by restriction enzyme analysis. Comparison of the mitochondrial DNA restriction enzyme fragmentation patterns showed pronounced differences not only among species but also among four isolates of A. arbuscula. The mitochondrial DNAs range in size from 39 kbp in A. neo-moniliformis to 56 kbp in A. macrogynus.A physical map of the mitochondrial DNA of Allomyces arbuscula strain Costa Rica 21 has been constructed. The genome is circular and has a size of 49.2 kbp. The genes coding for the small and large ribosomal RNAs, cytochrome oxidase subunits 1, 2, and 3, apocytochrome b, and ATPase subunits 6 and 9 were localized in the mitochondria) DNA by heterologous hybridization with specific mitochondria) gene probes from Saccaromyces cerevisiae and Neurospora crassa. Comparison of the gene map of the closely related species Blastocladiella emersonii with that of A. arbuscula indicates a similar gene order in the two organisms.