Genome organization of mitochondrial DNA from the non-saccharomycete yeast Arxula adeninivorans LS3

Mitochondrial (mt) DNA of the asexual ascomycetous yeast Arxula adeninivorans LS3 was isolated and characterized. The mtDNA has a GC content of 30.3 mol%. It is circular and its size, as estimated by restriction analysis performed with nine endonucleases, was 35.5 kbp. Using mt gene-probes from Saccharomyces cerevisiae six structural genes (cob, cox1, cox2, oli1, oli2, and 21S rRNA) were located on the mitochondrial genome of A. adeninivorans. The comparison between the mt genomes of A. adeninivorans and other yeasts showed differences in genome organization.     

Isolation and characterization of mitochondrial DNA from the alkane yeast Saccharomycopsis lipolytica

Summary Mitochondrial (mt) DNA of the alkane yeast, Saccharomycopsis lipolytica, was isolated. Its buoyant density in CsCl was found to be of 1.687 g/cm³, indicating a GC content of 27.5% and its melting point T_m = 79.5 °C, indicating a GC content of 24.9%. The corresponding values for nuclear (n) DNA, are 1.709 g/cm³ (GC: 49.5%) and T_m = 90.5 (GC: 51.7%) respectively. Electron microscopy revealed that mtDNA has a circular structure with a contour length of about 14.5 µm corresponding to 45.5 kb per molecule. The size estimated from restriction analyses performed with 7 endonucleases was 48.35 kb/molecule. A restriction map was constructed, using the cleavage data of 4 endonucleases.     

An adaptive response to alkylating agents in Aspergillus nidulans

Summary The analysis of mitochondria' DNA (mtDNA) from several strains of Candida parapsilosis and Candida rhagii by restriction endonucleases enabled us to discriminate between several groups within the C. parapsilosis species and to allocate laboratory strains to one of these. The mtDNAs isolated ranged in size from 20 to 31 kb. The mtDNA isolated from group 1 C. parapsilosis hybridises with both ATPase subunit 6 and 8 gene probes, the same restriction fragment hybridising with both probes.     

A circular 73 kb DNA from the colourless flagellate Astasia longa that resembles the chloroplast DNA of Euglena: restriction and gene map

Summary A 73 kbp circular DNA was isolated from the colourless euglenoid flagellate Astasia longa. Restriction sites of 12 restriction endonucleases were mapped on this DNA. Southern hybridization using plastid gene probes from Euglena, spinach and tobacco revealed sequence homologies to the genes coding for 16S and 23S ribosomal RNAs, elongation factor Tu (tufA) and the large subunit of ribulose-1,5-bisphosphate carboxylase (rbcL). The locations of these sequences on the restriction map were determined. Sequences homologous to chloroplast genes psaA, psbA, psbD, psbE and atpA are not present. The ribosomal RNA genes are organized in three tandem repeats, each containing one 23S and one 16S rRNA gene. In addition, there is one extra 16S rRNA gene. These results indicate the presence of a truncated form of a plastid DNA in Astasia.     

An improved host-vector system for Candida maltosa using a gene isolated from its genome that complements the hiss mutation of Saccharomvces cerevisiae

Summary The host-vector system of an n-lkaneassimilating-yeast, Candida maltosa, which we previously constructed using an autonomously replicating sequence (ARS) region isolated from the genome of this yeast, utilizes C. maltosa J288 (leu2 ^–) as a host. As this host had a serious growth defect on n-alkane, we developed an improved host-vector system using C. maltosa CHI (his) as host. The vectors were constructed with the Candida ARS region and a DNA fragment isolated from the genome of C. maltosa. Since this DNA fragment could complement histidine auxotrophy of both C. maltosa CH1 and S. cerevisiae (hiss ^–), we termed the gene contained in this DNA fragment C-HIS5. The vectors were characterized in terms of transformation frequency and stability, and the nucleotide sequence of C-HISS was determined. The deduced amino acid sequence (389 residues) shared 51% homology with that of HISS of S. cerevisiae (384 residues; Nishiwaki et al. 1987).     

Molecular analysis of a leu2 − mutant of Candida maltosa demonstrates the presence of multiple alleles

Three different alleles of the -isopropylmalate dehydrogenase gene were cloned and sequenced from a leucine auxotrophic mutant, G587, of Candida maltosa. The cloning of functionally-intact wild-type genes from this mutant strain suggests the presence of silent gene copies. An interallelic-divergence comparison has provided evidence for new regulatory mechanisms. Sequence data and karyotype analysis argue for a highly-aneuploid genome of C. maltosa. An interpretation for the spontaneous auxotrophy-prototrophy-auxotrophy sequence of mutations in C. maltosa is suggested.Dedicated to Prof. Dr. F. Böttcher on the occasion of his 65th birthday     

Several different mitochondrial DNA regions are involved in intergenomic recombination in Brassica napus cybrid plants

Summary An important mitochondrial (mt) DNA polymorphism was detected by SalI restriction enzyme analysis in five Brassica napus cybrids plants which combine B. napus chloroplasts and a cytoplasmic male sterility (cms) trait from Raphanus sativus. Novel restriction fragments observed in these cybrids were analysed. One of them was found to be constituted by fragments of both parent mt genomes. Sites involved in rut recombination in cybrids were compared by molecular hybridization to sites supposedly implicated in intragenomic mt recombination in B. oleracea The results indicate that mt recombination events arising through protoplast fusion involve several different rut DNA regions. Some of these regions appeared homologous to regions presumably involved in intragenomic mt recombination in B. oleracea.     

Physical mapping of the mitochondrial genome of the cultivated mushroom Agaricus brunnescens (= A. bisporus)

Summary Mitochondrial (mt) DNA from the commercial mushroom Agaricus brunnescens Peck [= A. bisporus (Lange) Imbach] was purified by cesium chloride/bisbenzimide gradient centrifugation. A physical map of the mtDNA fragments produced by BamHI, EcoRl, and PvuII digestion was generated by filter hybridizations with radiolabelled BamHI mtDNA probes. The A. brunnescens mtDNA was a circular molecule 136 kilo-basepairs (kbp) in length and contained an inverted repeat between 4.6 and 9.2 kbp in size. Orientational isomers of the mitochondrial genome were not detected. The positions of six genes were located on the A. brunnescens mtDNA map by heterologous hybridization. No coding function has yet been ascribed to the inverted repeat. The large rRNA gene was located on the smaller single copy region. The genes for cytochrome b, cytochrome oxidase (subunit III), ATPase (subunits 8 and 6) and the small rRNA were located on different regions of the larger single copy region.     

Physical evidence for recombination of chloroplast dna in hybrid progeny of Chlamydomonas eugametos and C. moewusii

Summary Differences in the restriction endonuclease fragmentation patterns of chloroplast DNA (cpDNA) from C. eugametos and C. moewusii have been used to study the inheritance of these DNAs in interspecific hybrids. Analysis of the cpDNAs from ten randomly selected F₁ hybrids, in each case revealed cpDNA to be recombinant for AvaI and BstEII restriction sites, although fragments characteristic of C. eugametos, the mt+ parent, were typically found in excess of those for C. moewusii, the mt– parent. In backcrosses between an F ₁ mt+ hybrid and C. moewusii mt–, seven randomly selected B₁ hybrids showed cpDNA restriction patterns either identical to or highly similar to that of the mt+ parent. We propose that cpDNA molecules are predominantly transmitted by the mt+ parent in both F₁ and B₁ generations but that selection favors survival of F₁ progeny with recombinant chloroplast genomes which avoid interspecific incompatibilities. On the surface, the inheritance of recombinant cpDNA contrasts with the simultaneous uniparental inheritance of two putative chloroplast markers (sr-2 and er-nM1 ⁺). However, it may be that these two markers are by chance associated with cpDNA sequences of the mt+ parent which were selected in all F₁ hybrids.     

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.     

Expression of an endogenous and a heterologous gene in Candida maltosa by using a promoter of a newly-isolated phosphoglycerate kinase (PGK) gene

A gene encoding phosphoglycerate kinase (PGK) was isolated from the genomic library of C. maltosa to construct an expression vector for this yeast. The PGK gene had an open reading frame of 1251 base pairs encoding approximately 47-kDA polypeptide of 417 amino-acid residues. Expression of this gene assayed by Northern-blot analysis was significantly induced in cells grown on glucose but not in cells grown on n-tetradecane, n-tetradecanol, or oleic acid. By using the promoter region of this gene, an expression vector (termed pMEA1) for C. maltosa was constructed and expression of an endogenous gene (P450alkl encoding one of cytochrome P450s for n-alkane hydroxylation in C. maltosa) and a heterologous gene (LAC4 encoding Kluyveromyces lactis -galactosidase) was tested. Expression of P450alkl gene was confirmed at both mRNA and protein levels. LAC4 gene expression was confirmed by determining -galactosidase activity. The activity in cells grown on various carbon sources correlated very well with the expression levels of PGK mRNA in these cells.     

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.     

The mitochondrial genome of the aquatic phycomycete Blastocladiella emersonii

Summary Mitochondrial DNA from the aquatic fungus Blastocladiella emersonii Cantino and Hyatt has been isolated and characterized. By restriction enzyme analysis the size of the mitochondrial genome was found to be 35.5 kb pairs. A restriction site map was constructed using the cleavage data for 6 endonucleases which showed the mitochondrial genome to be circular. The genes for the small and large ribosomal RNA, the ATPase subunits 6 and 9, the cytochrome c oxidase subunits 1, 2, and 3, and the apocytochrome b were located in the mitochonridal genome of B. emersonii by hybridizations with mitochondrial DNA probes from Saccharomyces cerevisiae and Neurospora crassa     

Chromosomal rearrangements after protoplast fusion in the yeast Candida maltosa

Summary Genetical analysis of fusion hybrid clones of C. maltosa L4 was performed by means of UV-induced mitotic segregation. The segregation frequencies of two linked markers could be different in several hybrid clones of one fusion combination indicating most probably position alterations of both genes on their linkage group. The differences referred to the distance between the genes, their distance to the centromere, and their sequence in relation to the centromere.     

Isolation of differentially expressed cDNA clones from salt-adaptedAspergillus nidulans

Differentially expressed cDNA clones were isolated from salt-adaptedAspergillus nidulans (FGSC #359). Poly (A)+ RNA from adapted mycelia was used to construct a Uni-ZAP cDNA library. The library was screened with mixed subtracted cDNA probes. Three-hundred and fifty-seven positive plaques were isolated in the primary screening. Sixty-two randomly selected plaques were purified and placed into eight different cross-hybridization groups. A representative cDNA from each group was used to study expression under unadapted, salt-adapted and salt-shock conditions. These clones, representing eight different genes, displayed enhanced expression under salt stress. Exploratory nucleotide sequencing was performed, and the predicted amino-acid sequence was compared with known gene sequences in the data-bank. Five of the cDNA clones were identified as a mitochondrial (mt) ATPase subunit, a mt ATPase subunit 9, a mt transport protein, a ubiquitin-extension protein and a ribosomal protein. Three cDNA clones could not be identified due to lack of adequate homology with known sequences. These results suggest that at least five genes with known function in cellular processes like ATP generation and protein synthesis, and three other genes of unknown identity, are greatly induced in salt-adapted conditions.     

Codon usage,genetic code and phylogeny of Dictyostelium discoideum mitochondrial DNA as deduced from a 7.3-kb region

We have sequenced a region (7 376-bp) of the mitochondrial (mt) DNA (54 kb) of the cellular slime mold, Dictyostelium discoideum. From the DNA and amino-acid sequence comparisons with known sequences, genes for ATPase subunit 9 (ATP), cytochrome b (CYTB), NADH dehydrogenase subunits 1, 3 and 6 (ND1, ND3 and ND6), small subunit rRNA (SSU rRNA) and seven tRNAs (Arg, Asn, Cys, Lys, f-Met, Met and Pro) have been identified. The sequenced region of the mtDNA has a high average A+T-content (70.8%). The A+T-content of protein-genes (73.6%) is considerably higher than that of RNA genes (61.3%). Even with the strong AT-bias, the genetic code employed is most probably the universal one. All seven tRNAs are able to form typical clover leaf structures. The molecular phylogenetic trees of CYTB and SSU rRNA suggest that D. discoideum is closer to green plants than to animals and fungi.     

Construction of promoter-probe vectors for Candida maltosa,a n-alkane-assimilating yeast,using the LEU2 gene of Saccharomyces cerevisiae

For the purpose of isolation of promoter regions which are regulated by a carbon source in the medium in an n-alkane-assimilating yeast, Candida maltosa, two promoter-probe vectors were constructed. Each of them consists of the LEU2 gene of Saccharomyces cerevisiae whose 5′-non-coding region was trimmed with BAL31, an autonomously replicating sequence isolated from C. maltosa genome (the TRA region) which we have previously isolated, and the pBR322 sequence. One of them, pPLC2, having the TATA box, lacks the regulatory sequence (“sequence L”) of the LEU2 gene, and the other, pPLC1, lacks both the TATA box and sequence L. Using pPLC1 as a shot-gun cloning vector in C. maltosa, many promoter regions which were active when glucose was present in the medium as a carbon source were obtained from the genome of C. maltosa. The sizes of the inserted fragments of two of them were determined. (In this paper, a promoter region refers to a promoter which includes a TATA box, plus a regulatory sequence such as an UAS (upstream activating sequence)-like sequence).     

Chloroplast DNA from the fern Osmunda cinnamomea: physical organization,gene localization and comparison to angiosperm

Summary Chloroplast DNA from the fern Osmunda einnamomea was isolated by a sucrose gradient procedure utilizing PEG to stabilize chloroplasts. Analysis with the restriction endonucleases PvuII, Sacl and BstEII indicates a chloroplast genome size of 144 kb. A physical map of the fragments produced by these three enzymes was constructed by filter hybridizations using purified PvuII fragments as hybridization probes. The Osmunda chloroplast genome is circular and contains an inverted repeat 8–13 kb in size.Gene probes from tobacco, corn and spinach were used to map the positions of six genes on the Osmunda chloroplast chromosome. The 16S and 23S ribosomal RNAs are encoded by duplicate genes which lie within the inverted repeat. Genes for the large subunit of ribulose-1,5-bisphosphate carboxylase, a photosystem II polypeptide, and the alpha and beta subunits of chloroplast coupling factor are located in three different segments of the large single copy region.The Osmunda chloroplast genome is remarkably similar in size, conformation, physical organization, and map positions of known genes, to chloroplast DNA from a number of angiosperms. The major difference between chloroplast DNA from this fern and angiosperms is that the inverted repeat is smaller in Osmunda (8–13 kb) than in angiosperms (22–25 kb).Abbreviations PEG polyethylene glycol 4000 - kb kilobase pairs - bp base pairs - rRNA ribosomal RNA - LS large subunit of ribulose-1,5-bisphosphate carboxylase - PII 32,000 dalton photosystem II polypeptide (Mattoo et al. 1981) - CF alpha subunit of chloroplast coupling factor - CF beta subunit of chloroplast coupling factor     

Sequencing the complete mitochondrial genome of Eimeria mitis strain USDA 50 (Apicomplexa: Eimeriidae) suggests conserved start positions for mtCOI- and mtCOIII-coding regions

Four complete mitochondrial (mt) sequences from a single-oocyst-derived line of Eimeria mitis USDA 50 were obtained (three from cloned whole-genome PCR products, one from directly sequenced whole-genome PCR product). The mt genome is 6,408 bp long with three genes (CytB, cytochrome c oxidase subunit I (COI) and cytochrome c oxidase subunit III (COIII)) and many rDNA fragments (large subunit rDNA 13, small subunit rDNA 10); organisation was identical to other Eimeria sp. mt genomes. Conserved start codon positions for both COI and COIII are suggested for all Eimeria mt genomes; these start codon positions exist and may also be conserved, in related apicomplexan parasites. Within the three separate cloned PCR products of near-complete mt genomes, there were 26 nucleotide differences (collectively) compared to the directly sequenced mt genome. These changes appear to be base misincorporations during PCR. Direct sequencing of long PCR amplification products may be more likely to generate accurate mt genomic sequences than cloning and subsequent sequencing.     

Physical map and protein gene map of cyanelle DNA from the second known isolate of Cyanophora paradoxa (Kies-strain)

Summary A restriction map of the cyanelle DNA from a different isolate of Cyanophora paradoxa (Kies-strain) was established. The positions of 18 protein genes and the rRNA genes have been located and compared to the positions of these genes from the first isolate of C. paradoxa (Pringsheim-strain). The gene arrangement is absolutely conserved in both cyanelle DNAs. The differences in size (ca. 9 kb) and the unrelatedness in the restriction patterns could be explained by numerous small insertions into intergenic regions of the cyanelle chromosomes.