Polymorphism and gene arrangement among plastomes of ten Epilobium species

Summary Plastid DNAs of ten different Epilobium species from four continents have been analysed using the restriction endonucleases BamHI, BglI, BglII, EcoRI, PstI, PvuII and SalI. With respect to the position of cleavage sites of those enzymes, each species has a specific plastome. Fragment patterns of different species from the same continent show a higher degree of similarity than those from different continents. Physical maps of the circular plastid DNA molecule have been constructed for each of the ten species by localising the cleavage sites of the enzymes BglI, PvuII and SalI. As in most other higher plants, the plastid DNA of Epilobium is segmentally organized into two inverted repeats separated by a large and a small single copy region. In heterologous hybridization experiments using radioactively labelled gene probes, the positions of structural genes coding for the rRNAs and for seven polypeptides have been determined. In contrast to its closest relative, Oenothera, the gene arrangement of Epilobium plastomes has the same order as in spinach. This indicates that changes in gene arrangement may be genus-specific and not the result of one or several events affecting all members of a plant family.Abbreviations kbp kilobase pairs - ptDNA plastid DNA - rDNA ribosomal DNA - rRNA ribosomal RNA - SDS sodium dodecyl sulfate     

Arrangement of the ribosomal RNA genes in chloroplast DNA of Leguminosae

Summary The circular chloroplast DNA from three species of plants in the taxonomic family Leguminosae were examined using electron microscopic techniques and restriction endonuclease digestion. Chloroplast DNAs from chickpea (Cicer arietinum), mung bean (Vigna radiata), and soy bean (Glycine max) were found to range in size from 119–151 kilobase pairs by contour length measurements. Sizes of the chloroplast DNAs have been further confirmed using different restriction endonucleases. Two of the chloroplast DNAs examined, soy bean and mung bean, contain a region approximately 15.9–18% of their monomer length that is repeated in reverse polarity. This repeated region separates a small unique region that ranges in size from 18.75–20.4 kilobase pairs and a large unique region that ranges in size from 73.4–85 kbp. This feature was not found in the chloroplast DNA of chickpea. R-loop hybridizations performed using chloroplast ribosomal RNAs demonstrate that the two ribosomal gene sets of the mung been and soy bean are arranged in inverted orientation within this repeated region. In contrast, the chickpea chloroplast DNA posesses a single ribosomal RNA gene set in the circular molecule. In all three chloroplast DNAs examined, the genes encoding the chloroplast 23S and 16S ribosomal RNA genes are separated by a spacer region which ranges in size from 2.2 to 2.48 kbp.     

Distribution and analysis of plasmids inStreptococcus thermophilus

Summary In a survey of 35 strains ofStreptococcus thermophilus, 13 strains were found to harbor plasmid DNA. Most of these strains contained plasmid species varying in size from 2.2 to 7.15 kilobases. Only three strains had more than one plasmid species. Each of the nine distinct types of plasmid DNAs identified had two or more unique recognition sites for restriction endonucleases. The characteristics of the indigenous cryptic plasmids ofS. thermophilus may allow their development as cloning vectors useful in the genetic engineering of this species and other streptococci that are important in food production     

The relationship between ribosomal repeat length and genome size in Vicia

The organization of the ribosomal RNA genes was examined in several species of Vicia in an attempt to determine whether a relationship exists between genome size and ribosomal repeat length. Species within this genus exhibit a sevenfold variation in haploid DNA content. Our data suggest that species with an intermediate genome size maintain one predominant Eco RI class of ribosomal repeat of about 9 kilobases (kb). In contrast, the smallest and largest genomes of Vicia possess one major and several minor classes. The possible relationship between repeat classes among species is discussed. We examined the species with the smallest (V. villosa) and largest (V. faba) genomes in closer detail by R-loop analysis of a satellite DNA from Hoechst 33258 dye-CsCl gradients. Heterogeneity was found in the length of the ribosomal repeat for both species, but no appreciable difference was observed in the distribution of these lengths, which averaged 11–12 kb. This heterogeneity is associated with the nontranscribed spacer region. Intervening sequences were not found in either the 25S or 18S coding regions of the ribosomal repeat of either of these two plants. A putative ribosomal RNA precursor of 7 kb was identified for both species.     

Restriction enzyme analysis of mitochondrial DNA of the Aspergillus flavus group: A. flavus, A. parasiticus, and A. nomius

Mitochondrial DNA restriction fragment length polymorphisms were identified that clearly distinguish Aspergillus flavus, A. parasiticus, and A. nomius. Mitochondrial DNAs of A. flavus and A. parasiticus were found to be circular, and their size was estimated size to be 32 kilobases. A restriction map was constructed for the mitochondrial genome of an A. parasiticus isolate by using four restriction endonucleases. Four genes tested were found to have the same order as in the mitochondrial genome of A. nidulans. The mitochondrial genome of A. nomius was estimated to be 33 kilobases.     

Restriction enzyme analysis of mitochondrial DNA of the Aspergillus flavus group: A. flavus, A. parasiticus, and A. nomius.

Mitochondrial DNA restriction fragment length polymorphisms were identified that clearly distinguish Aspergillus flavus, A. parasiticus, and A. nomius. Mitochondrial DNAs of A. flavus and A. parasiticus were found to be circular, and their size was estimated size to be 32 kilobases. A restriction map was constructed for the mitochondrial genome of an A. parasiticus isolate by using four restriction endonucleases. Four genes tested were found to have the same order as in the mitochondrial genome of A. nidulans. The mitochondrial genome of A. nomius was estimated to be 33 kilobases.     

Chloroplast DNA differences between two species of Oenothera subsection Munzia: location in the chloroplast genome and relevance to possible interactions between nuclear and plastid genomes

Summary The chloroplast DNAs (cpDNAs) of Oenothera berteriana and Oe. odorata (subsection Munzia) were examined by restriction endonuclease analysis with Sal I, Pvu II, Kpn I, Pst I, Hind III, and Bam HI. The fragment patterns show that these cpDNAs have all 133 restriction sites in common as well as a lot of individual bands. Nevertheless the cpDNAs of the two species can be distinguished by distinct differences in size between a small number of fragments. The 42 cleavage sites produced by Sal I, Pvu II and Kpn I were mapped on the circular cpDNAs. This was achieved by an approach which combined experimental and mathematical procedures. The overall serial order of the fragments was found to be the same for both cpDNAs. The size differences of individual fragments in the Sal I, Pvu II and Kpn I patterns between Oe. berteriana and Oe. odorata cpDNA are located within five regions scattered along the plastid chromosome. Two of these regions have been localized in the larger and one in the smaller of the two single-copy parts of the cpDNA molecule. The remaining two overlap the borders between the large single-copy and each of the duplicated parts of the molecule. The positions of distinct restriction sites are altered among the two Oenothera plastome DNAs by 0.02–0.4 MDa (30–600 base pairs). These alterations probably result from insertions/deletions.Abbreviations cpDNA chloroplast, plastid DNA - Oe. Oenothera - MDa Megadalton - rRNA, rDNA ribosomal RNA, DNA Dedicated to Professor Berthold Schwemmle, Tübingen, on the occasion of his 60th birthday     

There large inversions in the chloroplast genomes and one loss of the chloroplast generps16 suggest an early evolutionary split in the genusAdonis (Ranunculaceae)

Detailed chloroplast DNA restriction site maps for two species in the genusAdonis (Ranunculaceae),A. annua andA. vernalis, were constructed using single and double digests and the sizes of these genomes are 151.3 and 156.5 kilobases, respectively. Three inversions were found inAdonis, relative to the gene order in the majority of land plants. These rearrangements represent two different gene orders and mark an ancient split in the evolutionary history of this genus. Gene probes were used in order to map the endpoints of the inversions and the inverted repeat regions. The inverted repeat is approximately 400 base pairs shorter inA. annua than inA. vernalis. Two inversions, 39 kilobases and 24 kilobases in size, occur inA. annua and one inversion, 42 kilobases in size, is present in the remaining investigated species ofAdonis. The generps16 is absent from the chloroplast genome inAdonis annua. Restriction sites for eleven restriction endonucleases were mapped forA. annua, A. vernalis and four additional species ofAdonis and two species ofTrollius. Eighty-six phylogenetically informative sites were analysed cladistically in order to evaluate the main clades withinAdonis.     

Identification of a dispersed MboI repeat family in five higher plant genomes

Digestion of nuclear DNAs of five plants, namelyCucurbita maxima (red gourd),Trichosanthes anguina (snake gourd),Cucumis sativus (cucumber),Cajanus cajan (pigeon pea) andPhaseolus vulgaris (french bean) with the restriction endonucleaseMboI yielded discrete size classes with molecular weights in the range of 0.5 to 5 kbp. TheMboI digestion pattern of Cot 0.1 DNA in french bean is comparable with that of total DNA, indicating that these bands represented highly repeated DNA sequences. Cleavage of the DNAs with varying amounts ofMboI indicated the dispersed nature of the repeat families. Southern hybridization studies using french bean highly repetitive DNA as a probe indicated more homology with repeats of pigeon pea and less homology with red gourd, snake gourd and cucumber repeats.     

Recombinant DNA analysis indicates that the multiple chromosomes of maize mitochondria contain different sequences

Twenty-eight Bam H 1 restriction fragments were isolated from normal mitochondrial DNA of maize by recombinant DNA techniques to investigate the organization of the mitochondrial genome. Each cloned fragment was tested by molecular hybridization against a Bam digest of total mitochondrial DNA. Using Southern transfers, we identified the normal fragment of origin for d each clone. Twenty-three of the tested clones hybridized only to the fragment from which the clone was derived. In five cases, labeling of an additional band indicated some sequence repetition in the mitochondrial genome. Four clones from normal mitochondrial DNA were found which share sequences with the plasmid-like DNAs, S-1 and S-2, found in S male sterile cytoplasm. The total sequence complexity of the clones tested is 121×10⁶ d (daltons), which approximates two thirds of the total mitochondrial genome (estimated at 183×10⁶ d). Most fragments do not share homology with other fragments, and the total length of unique fragments exceeds that of the largest circular molecules observed. Therefore, the different size classes of circular molecules most likely represent genetically discrete chromosomes in a complex organelle genome. The variable abundance of different mitochondrial chromosomes is of special interest because it represents an unusual mechanism for the control of gene expression by regulation of gene copy number. This mechanism may play an important role in metabolism or biogenesis of mitochondria in the development of higher plants.     

Cloning of Escherichia coli genes encoding 3-methyladenine DNA glycosylases I and II

Summary The presence of polydisperse small circular DNAs in wheat cells was first confirmed by the mica-pressadsorption (MPA) method for electron microscopy. To identify their location in the cell, chloroplast and mitochondrial fractions were examined separately by the same method; small circular DNAs were scarcely found in the former but abundantly in the latter fraction, indicating their origin from mitochondria. The size varied greatly, ranging from 0.1 to 2.0 m in contour length. To verify the present finding, the same mitochondrial fraction was examined by the conventional cytochrome-spreading method by which the presence of the same size-class of circular DNAs was confirmed.To know the relationship between the small circular DNAs and cytoplasmic differentiation observed among Tritium (wheat) and Aegilops species, protoplasts isolated from seven alloplasmic lines of common wheat with different cytoplasms were examined by the MPA method. Similar polydisperse small circular DNAs, ranging from 0.1 to 2.5 m in contour length Dere found in all lines, and no clear size differences were noticed among the DNA populations from the cytoplasms of eight Triticum and Aegilops species.     

Subcellular localization of minicircle DNA in the dinoflagellate Amphidinium massartii

Peridinin‐containing dinoflagellates have small circular DNA molecules called minicircle DNAs, each of which encodes one, or occasionally a few, plastid proteins or ribosomal RNA. Dinoflagellate minicircle DNA is composed of two parts: a gene‐coding sequence and a non‐coding sequence that consists of several variable and core regions. The core regions are identical among the minicircle DNAs with different genes within a species or strain. Because such structure is very different from those of well known plastid DNAs, many functional and evolutionary questions have been raised for the minicircle DNAs, and several studies that focus on answering those questions are underway. However, the localization of minicircle DNA is still controversial: several lines of indirect evidence have implied plastid localization, whereas the nuclear localization of minicircle DNA has also been suggested in a species. In order to understand the evolution and function of minicircle DNA, it is important to know its precise localization. In this study, we sequenced two typical minicircle DNAs, one encodes psbA and the other encodes 23S rRNA genes, from an Amphidinium massartii strain (TM16). To determine the subcellular localization of these minicircle DNAs, we performed DNA‐targeted whole cell fluorescence in situ hybridization with A. massartii minicircle DNA‐specific probes and demonstrated that minicircle DNAs were present in plastids. This study provides the first direct evidence for the plastid localization of dinoflagellate minicircle DNAs.     

Restriction Fragment Length Polymorphism Analyses of the Plasmid DNAs in Strains of Xanthomonas campestris pv. vesicatoria from Different Geographic Areas

Restriction fragment length polymorphisms (RFLPs) of plasmid DNAs in Xanthomonas campestris pv. vesicatoria were analysed using 77 strains from the United states, Argentina, Australia, Taiwan, and Korea. One or more plasmids were detected in all tested strains, irrespective of geographic origin, host plant from which isolated, or chemical resistance. All Korean strains contained a few plasmids of similar high molecular weight, whereas some small plasmids occured only in strains from the United States, Argentina, and Taiwan. After digesting total plasmid DNAs with each of four restriction endonucleases, 18 fragments with sizes from about 1 to 23 kb were visualized. Seventy-seven strains of diverse geographic origins, with different levels of resistance to streptomycin and copper, were classified into the 14 RFLP groups based on the restriction endonuclease digestion patterns of their plasmid DNAs. Strains belonging to each group shared DNA fragments of identical size, suggesting the possible presence of similar plasmids in these strains. A 5.8-kb EcoRI plasmid DNA probe prepared from the United States strain 81-23 hybridized to EcoRI plasmid digests from all tested strains. Other plasmid DNA fragments of the strain81-2,3 used as probes had no homology to plasmid DNA fragments from several strains around the world. The variation in hybridization profiles of plasmid DNA was very similar to the results obtained by RFLP analysis of plasmid DNA digested by four restriction enzymes. Most of the Korean strains tested were highly sensitive to streptomycin and copper, whereas most strains from other geographic areas showed a high level of resistance to one or two of the chemicals. Cluster analysis of genetic distance between the strains based on the data obtained generated the dendrograms that separated all Korean strains from the other strains, suggesting that plasmid DNA of the Korean strains may be genetically very different from those of the others.     

The plastome of a brown alga,Dictyota dichotoma

Summary Plastids of the brown algaDictyota dichotoma contain a single homogeneous DNA species which bands at a buoyant density of 1.693 g/cm³ in neutral CsCl equilibrium density gradients. The corresponding nuclear DNA has a density of 1.715 g/cm³. The molecular size of the plastid DNA is 123 kbp as calculated by both electron microscopy of spread intact circular molecules and gel electrophoresis following single and double digestions with various restriction enzymes. A restriction map has been constructed using the endonucleases Sal I, Bam HI, and Bgl II which cleave theDictyota plastome into 6, 12, and 17 fragments, respectively. No large repeated regions, as found in chlorophycean andEuglena plastid DNAs, were detected.Dictyota dichotoma is the first member from the chlorophyll c-line of the algal pedigree for which a physical map of plastid DNA has been established. Dedicated to Professor Dr. W. Stubbe on the occasion of his 65th birthday.     

Isolation and physicochemical characterization of mitochondrial DNA from cultured cells ofPetunia hybrida

Summary Mitochondrial DNA ofPetunia hybrida was purified from cell suspension cultures. Up to 50% of the DNA could be isolated as supercoiled DNA molecules by CsCl-ethidium bromide density gradient centrifugation. The DNA purified from DNase-treated mitochondria bands at a single buoyant density of 1.760 gcm^–3 in neutral density gradients and runs on agarose gels as a single band with an apparent molecular weight exceeding 30 megadaltons (Md). Summing of the restriction endonuclease fragment lengths indicates a mitochondrial genome size of at least 190 Md. Electron microscopic analysis reveals the presence of a heterogeneous population of circular DNA molecules, up to 60 Md in size. Small circular DNA molecules, ranging in size from 2–30 Md are present, but unlike in cultured cells of other plant species they do not form discrete size classes and furthermore, they constitute less than 5% of the total DNA content of the mitochondria. The restriction endonuclease patterns of mitochondrial DNA do not qualitatively alter upon prolonged culture periods (up to at least two years).     

Differential homogenization and amplification of two satellite DNAs in the genus Cucurbita (Cucurbitaceae)

Two different satellite DNAs exist in the genus Cucurbita which are different with respect to repeat length (350 by and 170 bp), array size, and sequence homogenization. Whereas the 350-bp satellite DNA is prominent and very homogeneous in all species investigated except for C. maxima and C. lundelliana, the 170-bp satellite is rather evenly distributed in all species. In C. maxima and C. lundelliana the 350-bp satellite is present only in small amounts, but detectable by the sensitive PCR method. These repeats are also very homogeneous, reflecting a silent stage of satellite DNA. In contrast, the 170-bp satellite DNA is intra- and interspecifically heterogeneous. It is striking that the species with no detectable amount of 350-bp satellite contain 170-bp satellite DNA clusters with the highest degree of homogeneity. The evolution of satellite DNA repeats within cultivated and wild species in the genus Cucurbita is elucidated using the sequence data of both satellite DNAs from all species investigated. The value of satellite DNA for phylogenetic analysis between closely related species is discussed. Correspondence to: V. Hemleben     

Fluctuation of a clone 46,XX,i(7q) in bone marrow in a Fanconi anaemia

Summary Fixed metaphase chromosomes of different species and genera of Primates (five species of Macaca genus and Callithrix acchus) have been studied after Alu I restriction enzyme digestion and DA-DAPI counterstaining, in the attempt to determine some qualitative characteristics of their DNAs and specifically of the DNA localized in the heterochromatic components of the karyotypes. The results have been discussed in the light of those already published on humans, confirming the potentiality of this approach in the study of the phyloevolutive relationships in Primates.     

A map of the restriction targets in yeast 2 micron plasmid DNA cloned on bacteriophage lambda

Summary The 2 micron circular DNA from S. cerevisiae has been cloned on bacteriophage . The two forms of circular DNA which exist in equilibrium due to recombination between inverted repeat sequences were separated as stable clones, and a map of the targets for restriction endonucleases EcoRI, HindIII and HpaI was constructed. The circular DNAs isolated from a particular oligomycin resistant strain and its parent oligomycin sensitive strain were compared by restriction endonuclease analysis, and no difference was detected. The potential uses of cloned 2 micron DNA in determining the possible biological role of these plasmids are considered.     

Amplified DNAs in laboratory stocks of Leishmania tarentolae: extrachromosomal circles structurally and functionally similar to the inverted-H-region amplification of methotrexate-resistant Leishmania major.

We describe the structure of amplified DNA that was discovered in two laboratory stocks of the protozoan parasite Leishmania tarentolae. Restriction mapping and molecular cloning revealed that a region of 42 kilobases was amplified 8- to 30-fold in these lines. Southern blot analyses of digested DNAs or chromosomes separated by pulsed-field electrophoresis showed that the amplified DNA corresponded to the H region, a locus defined originally by its amplification in methotrexate-resistant Leishmania major (S. M. Beverley, J. A. Coderre, D. V. Santi, and R. T. Schimke, Cell 38:431-439, 1984). Similarities between the amplified DNA of the two species included (i) extensive cross-hybridization; (ii) approximate conservation of sequence order; (iii) extrachromosomal localization; (iv) an overall inverted, head-to-head configuration as a circular 140-kilobase tetrameric molecule; (v) two regions of DNA sequence rearrangement, each of which was closely associated with the two centers of the inverted repeats; (vi) association with methotrexate resistance; and (vii) phenotypically conservative amplification, in which the wild-type chromosomal arrangement was retained without apparent modification. Our data showed that amplified DNA mediating drug resistance arose in unselected L. tarentolae, although the pressures leading to apparently spontaneous amplification and maintenance of the H region are not known. The simple structure and limited extent of DNA amplified in these and other Leishmania lines suggests that the study of gene amplification in Leishmania spp. offers an attractive model system for the study of amplification in cultured mammalian cells and tumors. We also introduced a method for measuring the size of large circular DNAs, using gamma-irradiation to introduce limited double-strand breaks followed by sizing of the linear DNAs by pulsed-field electrophoresis.     

Analysis of chloroplast and mitochondrial DNAs in asymmetric somatic hybrids between tobacco and carrot

Summary Chloroplast and mitochondrial DNAs have been examined by comparison of restriction enzyme patterns in asymmetric hybrid plants, resulting from the fusion between leaf mesophyll protoplasts of Nicotiana tabacum (Solanaceae), and irradiated cell culture protoplasts of Daucus carota (Umbellifereae). These somatic hybrids with normal tobacco morphology were selected as a consequence of the transfer of methotrexate and 5-methyltryptophan resistance from carrot to tobacco. The restriction patterns of chloroplast DNAs in somatic hybrids were indistinguishable from the tobacco parent. However, we found somatic hybrids with mitochondrial DNA significantly different from either parent, as judged by analysis of fragment distribution after restriction enzyme digestion. The possible formation of altered mitochondrial DNA molecules as the result of parasexual hybrid production between two phylogenetically highly divergent plant species will be discussed.