Geographical cline of chloroplast DNA variation in Abies mariesii

Where its populations are isolated in higher mountain regions, Abies mariesii is one of the more important conifers of Japan's alpine forest zone. In this study we tried to clarify the genetic variation of chloroplast DNA (cpDNA) in A. mariesii. Cones and fresh needles were collected from seven mountain regions. Total DNAs were extracted from individual seedlings, and these were digested by 15 restriction endonucleases. Southern hybridization was then done using cpDNA clones of Cryptomeria japonica and tobacco as probes. CpDNA variation was detected with enzyme-probe combinations: HindIII+pCS10 probe, HindIII+pCS7, and BglII+pCS7 in preliminary screening. These variations were considered to be caused by the same insertion, deletion or inversion. All populations surveyed for the combination HindIII+pCS10 resulted in only two frequency variations in each population. This indicates a gradual cline along latitude and longitude.     

Chloroplast DNA restriction fragment length polymorphism in Sequoia sempervirens D. Don Endl., Pseudotsuga menziesii (Mirb.) Franco,Calocedrus decurrens (Torr.), and Pinus taeda L.

Summary The extent and type of chloroplast DNA restriction fragment length polymorphism was determined among individual tree samples of coast redwood, Douglas fir, incense-cedar, and loblolly pine. A total of 107 trees was surveyed for three restriction enzymes (BamHI, EcoRI, HindIII) and six chloroplast DNA probes from petunia (P3, P4, P6, P8, P10, S8). The probes comprise 64% of the petunia chloroplast genome. Polymorphisms were detected in all species but loblolly pine. Coast redwood and incense-cedar had a small number of rare variants, whereas Douglas fir had one highly polymorphic region of insertions/deletions in sequences revealed by the P6 probe from petunia. The mutation hotspot is currently being studied by DNA sequence analysis.     

A BAC library of <Emphasis Type="Italic">Beta vulgaris</Emphasis> L. for the targeted isolation of centromeric DNA and molecular cytogenetics of <Emphasis Type="Italic">Beta</Emphasis> species

We constructed a sugar beet (Beta vulgaris) bacterial artificial chromosome (BAC) library of the monosomic addition line PAT2. This chromosomal mutant carries a single additional chromosome fragment (minichromosome) derived from the wild beet Beta patellaris. Restriction analysis of the mutant line by pulsed-field gel electrophoresis was used to determine HindIII as a suitable enzyme for partial digestion of genomic DNA to generate large-insert fragments which were cloned into the vector pCC1. The library consists of 36,096 clones with an average insert size of 120 kb, and 2.2% of the clones contain mitochondrial or chloroplast DNA. Based on a haploid genome size of 758 Mbp, the library represents 5.7 genome equivalents providing the probability of 99.67% that any sequence of the PAT2 genome can be found in the library. Hybridization to high-density filters was used to isolate 89 BACs containing arrays of the centromere-associated satellite repeats pTS5 and pTS4.1. Using the identified BAC clones in fluorescent in situ hybridization experiments with PAT2 and Beta patellaris chromosome spreads their wild beet origin and centromeric localization was demonstrated. Multi-colour FISH with differently labelled satellite repeats pTS5 and pTS4.1 was used to investigate the large-scale organization of the centromere of the PAT2 minichromosome in detail. FISH studies showed that the centromeric satellite pTS5 is flanked on both sides by pTS4.1 arrays and the arms of the minichromosome are terminated by the Arabidopsis-type telomeric sequences. FISH with a BAC, selected from high-density filters after hybridization with an RFLP marker of the genetic linkage group I, demonstrated that it is feasible to correlate genetic linkage groups with chromosomes. Therefore, the PAT2 BAC library provides a useful tool for the characterization of Beta centromeres and a valuable resource for sugar beet genome analysis.     

The structure of the chloroplast genome in members of the genus Asparagus

 In a previous study we constructed a physical map of the chloroplast DNA (ctDNA) of garden asparagus (Asparagus officinalis L. cv ‘Mary Washington 500W’; Lee et al. 1996). In the present study we have constructed and compared HindIII and XhoI restriction maps of the ctDNAs of eight species of Asparagus: namely, A. officinalis, A. schoberioides, A. cochinchinensis, A. plumosus, A. falcatus, A. sprengeri, A. virgatus and A. asparagoides. The ctDNA of A. officinalis has 32 and 23 sites that are recognized by HindIII and XhoI, respectively. Taking the physical map of the ctDNA of A. officinalis as a standard, we found that the ctDNAs of A. falcatus, A. sprengeri, and A. asparagoides each had one additional HindIII site and lacked one XhoI site. We also detected two relatively large deletions of nucleotides in the ctDNA from A. cochinchinensis by sequencing analysis. Both of these deletions were located in a non-coding region between the ndhC and trnV genes and were 95 bp and 347 bp in length, respectively. The regions around the deletions exhibited strong homology, and short direct-repeat sequences were detected at the borders of the deletions, an indication that these deletions were the result of intramolecular recombination mediated by the direct repeats. Received: 16 June 1997 / Accepted: 17 July 1997     

Plastid DNA diversity in natural populations of Beta maritima showing additional variation in sexual phenotype and mitochondrial DNA

Summary Plants of two natural populations of Beta maritima, characterized by high percentages of male-sterile plants, have been investigated for organelle DNA polymorphism. We confirm the two classes of mitochondrial DNA variation previously described: (i) mitochondrial DNA (mtDNA) type N is associated with male fertility, whereas mtDNA type S can cause cytoplasmic male sterility (CMS); (ii) the 10.4-kb linear plasmid is observed in both types of mitochondria and is not correlated with the cytoplasmic male sterility occurring in this plant material. A third polymorphism is now described for chloroplast DNA (ctDNA). This polymorphism occurs within single populations of Beta maritima. Three different ctDNA types have been identified by HindIII restriction analysis. Among the plants studied, ctDNA type 1 is associated with N mitochondria and type 2 with S mitochondria. Chloroplast DNA type 3 has been found both in a fertile N plant and in a sterile S plant. This finding suggests that the chloroplast DNA polymorphism reported is not involved in the expression of male sterility. A comparison with Beta vulgaris indicates that ctDNA type 3 of Beta maritima corresponds to the ctDNA of fertile sugar beet maintainer lines. The three types of Beta maritima ctDNA described in this study differ from the ctDNA of male-sterile sugar beet.     

Physical maps of Nicotiana chloroplast DNA constructed by an efficient procedure

Summary The restriction profiles of chloroplast DNA (cpDNA) from Nicotiana tabacum, N. sylvestris, N. plumbaginifolia, and N. otophora were obtained with respect to AvaI, BamHI, BglI, HindIII, PstI, PvuII, SalI, and XhoI. An efficient mapping method for the construction of cpDNA physical maps in Nicotiana was established via a computer-aided analysis of the complete cpDNA sequence of N. tabacum for probe selection. The efficiency of this approach is demonstrated by the determination of cpDNA maps from N. sylvestris, N. plumbaginifolia, and N. otophora with respect to all of the above restriction endonucleases. The size and basic structure of the cpDNA from the three species are almost identical, with an addition of approximately 80 bp in N. plumbaginifolia. The restriction patterns and hence the physical maps between N. tabacum and N. sylvestris cpDNA are identical and there is no difference in the Pvull digests of cpDNA from all four species. Restriction site variations in cpDNA from different species probably result from point mutations, which create or eliminate a particular cutting site, and they were observed spanning the whole chloroplast molecule but highly concentrated in both ends of the large, single-copy region. The results presented here will be used for the forthcoming characterization of chloroplast genomes in the interspecies somatic hybrids of Nicotiana, and will be of great value in completing the exploration of the phylogenetic relationships within this already extensively studied genus.     

Beta chloroplast genomes: analysis of Fraction I protein and chloroplast DNA variation

Summary The interrelationships of Beta chloroplast genomes have been investigated on the basis of the analysis of Fraction I protein and chloroplast (ct) DNA. Three groups of the chloroplast genomes could be demonstrated by the difference in isoelectric points of the large subunit of Fraction I protein. Restriction enzyme analysis revealed inter- and intra-specific variations among the ctDNAs, which enabled us to detect seven distinct ctDNA types. In Vulgares and Corollinae species, the observed differences were physically mapped taking advantage of the restriction fragment map available for sugar beet (B. vulgaris) ctDNA. The DNA variations were found to result either from gains or losses of restriction sites or from small deletions/ insertions, and most of them were located in the large single-copy region of the genome. Moreover, the ctDNAs from Patellares species are more diverged from those of other Beta taxa. Our results also indicate that there is a close correlation between the chloroplast genome diversity and the accepted taxonomic classification of the species included in this survey.     

Chloroplast DNA differences between cultivated hop,Humulus lupulus and the related species H. japonicus

Chloroplast DNA (cpDNA) of Humulus Lupulus and H. japonicus was examined by restriction endonuclease analysis with BamHI, BanI, BclI, BstEII, DraI, EcoRI, EcoRV, HindIII, KpnI, PaeR7I, PstI, PvuII, SalI and XhoI. The restriction fragment patterns showed that the cpDNAs shared a large number of restriction sites. However, the chloroplast genomes of the two species could be distinguished by differences in restriction site and restriction fragment patterns in the PstI, PvuII, BclI, EcoRV, DraI and HindIII digests. On the basis of the complexity of restriction enzyme patterns, the enzymes PstI, PvuII, SalI, KpnI and XhoI were selected for mapping the chloroplast genomes. Single and double restriction enzyme digests of cpDNA from the two species were hybridized to cpDNA probes of barley and tobacco. The data obtained from molecular hybridization experiments were used to construct the cleavage site maps. Except for the PstI digest, the arrangement of cpDNA restriction sites was found to be the same for both species. An extra PstI site was present in H. lupulus. Three small insertions/deletions of about 0.8 kbp each were detected in the chloroplast genomes of the two species. Two of these insertions/deletions were present in the large and one in the small singlecopy region of the chloroplast genome. The cpDNA of Humulus was found to be a circular molecule of approximately 148 kbp that contains two inverted repeat regions of 23 kbp each, a small and a large single -copy region of approximately 20 kbp and 81 kbp, respectively. The chloroplast genome of hop has the same physical and structural organization as that found in most angiosperms.     

Characterization of ard B and ard C actin gene loci of Physarum polycephalum

Summary Physarum polycephalum (strain M₃CVIII) contains four unlinked actin gene loci, each with two alleles (ard A1, ard A2, ard B1, ard B2, ard C1, ard C2, ard D1 and ard D2). The 4.8 kbp HindIII component of the ard C2 locus was isolated as a recombinant phage-, after HindIII fragments of Physarum DNA ranging from 4.3 kbp to 5.5 kbp were cloned into phage- NM1149. The fraction of Physarum DNA cloned contained the ard C locus, and no other actin locus. Small inserts were favoured to reduce the probability of cloning a complete repetitive element, because such elements have been found to adversely affect the stability of recombinants.The coding sequences of the actin gene (approximately 1.1 kbp) spanned more than 3 kbp indicating the presence of introns. A 1.6 kbp HindIII/EcoRI fragment of the ard C locus, which contained some coding sequences, hybridized extensively with HindIII fragments of genomic DNA indicating the presence of repetitive sequences. A 2.3 kbp HindIII/EcoRI fragment containing most of the coding sequences of the C2 allele of the ard C locus hybridized with the C1, allele and both alleles of the ard B locus, but not with the ard A locus or ard D locus. This distinction was used to establish for the ard B and ard C loci the relationship between the EcoRI and HindIII fragments that define an ard locus. The ability to distinguish between ard loci may facilitate studies of the expression of particular actin loci.     

The physical map of the chloroplast DNA from Asparagus officinalis L.

The genus Asparagus consists of 100–300 species of both dioecious and hermaphrodite plants. Since there are diploid, tetraploid, and hexaploid plants in this genus, RFLP (restriction fragment length polymorphism) analysis of chloroplast DNA (ctDNA) is suitable for examining the phylogenetic relationships. We have constructed a physical map of the ctDNA of garden asparagus (A. officinalis L. cv Mary Washington 500 W) using five restriction endonucleases, namely, BamHI, PstI, SalI, HindIII, and XhoI. Asparagus ctDNA was digested with restriction enzymes and cloned into plasmid and phage vectors, and a clone bank was constructed that covered 70% of the genome. A physical map was constructed by Southern hybridization of total DNA from asparagus with homologous and heterologous probes. The asparagus ctDNA was about 155 kb long and it contained two inverted repeats (23kb each) separated by a large single-copy region (90kb) and a small single-copy region (19kb). Fifteen genes, encoding photosynthesis-related proteins, rDNAs, and tRNAs, were localized on the physical map of asparagus ctDNA. Comparing the length and the gene order of asparagus ctDNA with that of other plants, we found that asparagus ctDNA was similar to tobacco ctDNA but different from rice ctDNA. The restriction patterns of the ctDNAs from several varieties of A. officinalis and three species of Asparagus were analyzed. The restriction patterns of the varieties of A. officinalis were very similar, but polymorphisms were detected among the three species of Asparagus.     

The sugar beet mitochondrial genome: A complex organisation generated by homologous recombination

Summary The complete physical map of the mitochondrial genome of the Owen cytoplasm of sugar beet has been determined from overlapping cosmid clones. The genome is 386 kb in size and has a multicircular organisation generated by homologous recombination across repeated DNA elements. The location of the rRNA genes and several polypeptide genes has been determined. In addition the mitochondrial genome was found to contain a sequence of chloroplast DNA including part of the 16 S rRNA gene.     

Comparison of chloroplast and mitochondrial DNA from five morphologically distinct Beta vulgaris cultivars: sugar beet,fodder beet,beet root,foliage beet,and Swiss chard

Summary Two cytoplasms, N and S, are used in the breeding of sugar beet, Beta vulgaris var. altissima. These cytoplasms can be distinguished by their mitochondrial DNA. In an attempt to detect new cytoplasms, we compared the restriction profiles of chloroplast and mitochondrial DNA from five different cultivars of Beta vulgaris. All restriction patterns of chloroplast DNA were identical. With the exception of sugar beet with S-cytoplasm, all cultivars studied showed the same restriction profile of mitochondrial DNA, indicating that these cultivars all contain the N-cytoplasm. These results are discussed with regard to the large morphological differences of the cultivars and the cytoplasmic variability found in natural populations of the wild beet, Beta maritima.     

Cloning of the trp genes from the archaebacterium Methanococcus voltae: nucleotide sequence of the trpBA genes

Summary A cosmid bank of Methanococcus voltae DNA was obtained in Escherichia coli after ligation of partially HindIII-digested M. voltae DNA in the HindIII site of the transferable cosmid pVK100. The bank was used to perform complementation experiments with E. coli auxotrophic mutants. Five cosmids complementing trpA shared three adjacent HindIII fragments of 2.1, 2.3 and 14 kb. Two of these cosmids also complemented trpD and carried an additional 4.2 kb HindIII fragment. The trpA- and trpD-complementing regions were more precisely localized using Tn5 mutagenesis. A 1.7 kb PstI fragment, cloned into pUC9 in both orientations, was responsible for the trpA complementation. This fragment was sequenced and an open reading frame (ORF) of 852 nucleotides (ORFtrpA) encoding a 284 amino acid polypeptide of mol. wt. 31938 was found. The amino acid sequence was compared with that of the subunit of tryptophan synthase (trpA gene product) from nine eubacterial species and to the N-terminal part of the tryptophan synthase of Saccharomyces cerevisiae (TRP5 gene product). Similarity varied from 24% (Brevibacterium lactofermentum) to 35% (S. cerevisiae). The nucleotide sequence of the region upstream from M. voltae ORFtrpA was determined and revealed the presence of an ORF of 1227 nucleotides (ORFtrpB) encoding a 409 amino acid polypeptide of mol. wt. 44634. The polypeptide sequence was similar to the subunit of tryptophan synthase (trpB gene product) from six eubacterial species and to the C-terminal part of the tryptophan synthase of S. cerevisiae. Similarity varied from 49% (S. cerevisiae, B. lactofermentum) to 58% (Pseudomonas aeruginosa). This high conservation supports the hypothesis of a common ancestor for the trpA and trpB genes of archaebacteria, eubacteria and eucaryotes. M. voltae ORFtrpA and ORFtrpB, which are transcribed in the same direction, are separated by a 37 bp AT-rich region. Immediately upstream from ORFtrpB, the 3 end of an ORF homologous to E. coli and Bacillus subtilis trpF was found. As the trpD-complementing region was located upstream from the trpFBA sequenced region, the organization of trp genes in the archaebacterium might thus be trpDFBA. Such an organization resembles that of enteric eubacteria, in which the trpEDCFBA genes are grouped in a single operon. However, M. voltae ORFtrpA and ORFtrpB do not overlap, in contrast with what is found in most eubacteria.     

Macroptilium atropurpureum (siratro) host specificity genes are linked to a nodD-like gene in the broad host range Rhizobium strain NGR234

Summary A 6.7 kb HindIII fragment from the Sym-plasmid of strain NGR234 was found to code a nodD-like gene flanked by two loci which were required for siratro host range. Transfer of the 6.7 kb fragment from NGR234 to R. trifolii strain ANU843 conferred extended host range ability to this strain on siratro plants but not to other plants normally nodulated by strain NGR234. Tn5 mutagenesis of the 6.7 kb fragment showed that insertions located into loci flanking the nodD-like gene abolished the extended host range phenotype. A hybridization probe spanning one of the host specificity loci was shown to hybridize to three specific bands in the NGR234 genome. Complementation and DNA hybridization data showed that the nodD-like gene of strain NGR234 was functionally similar to that in R. trifolii. The introduction to R. trifolii of the 6.7 kb HindIII fragment containing Tn5 insertions located in the nodD-like gene did not abolish the ability to extend the host range of R. trifolii to siratro plants. However, transfer of the 6.7 kb HindIII to R. trifolii derivatives containing Tn5 insertions into either nodA, B or C or other R. trifolii nod genes failed to confer siratro nodulation to these recipients. Reconstruction experiments showed that the 6.7 kb fragment from strain NGR234 and the 14 kb nodulation region of R. trifolii could induce the nodulation of siratro plants when introduced together into Sym-plasmid-cured Rhizobium strains.     

Loss ofHindIII cleavage sites in thed-amino acid oxidase gene in some inbred strains of mice

Summary d-Amino acid oxidase cDNA was amplified by a polymerase chain reaction using RNA extracted from the mouse kidney. When digested withHindIII, the cDNAs of the BALB/c and ddY/DAO^– mice were cleaved into two fragments whereas the cDNA of the ddY/DAO⁺ mice was not. Sequencing revealed that nucleotide-471 of the cDNAs was G in the BALB/c and ddY/DAO^– mice whereas it was substituted for C in the ddY/DAO⁺ mice. This base substitution was the cause of the failure of the cleavage of the cDNA of the ddY/DAO⁺ mice.Examination of other strains of inbred mice showed thatd-amino-acid oxidase cDNAs of A/J, AKR, C57BL/6, CD-1, CF#1, ICR, DBA/2, NZB and NZW mice were cleaved withHindIII into two fragments whereas those of C3H/He, CBA/J and NC mice were not. Genomic DNAs extracted from the mice of these 15 strains were digested withHindIII and hybridized withd-amino-acid oxidase cDNA. A 18.2-kb fragment hybridized with the probe in the C3H/He, CBA/J, ddY/DAO⁺ and NC mice whereas two fragments of 12 kb and 6.2 kb hybridized in the other mice. These results are consistent with those of the cDNAs, confirming the loss of theHindIII cleavage site in the C3H/He, CBA/J, ddY/DAO⁺ and NC mice. The Southern hybridization revealed a loss of a differentHindIII cleavage site in the A/J, AKR, C57BL/6, DBA/2, ICR and NZB mice.The substitution at nucleotide-471 should cause a substitution of an amino acid residue. However, this substitution did not affect catalytic activity ofd-amino acid oxidase.     

The nickel resistance determinant cloned from the enterobacterium Klebsiella oxytoca: conjugational transfer,expression, regulation and DNA homologies to various nickel-resistant bacteria

Klebsiella oxytoca strain CCUG 15788, isolated from a mineral oil emulsion tank in Göteborg, Sweden, was found to be nickel-resistant (tolerating 10 mm NiCl₂ in non-complexing mineral-gluconate media; inducible resistance). The nickel resistance determinants were transferred by helper-assisted conjugation to various strains of Escherichia coli and Citrobacter freundii and expressed to between 5 and 10 mm NiCl₂. A 4.3 kb HindIII fragment was cloned from the genomic DNA of K. oxytoca. Ligated into the vector pSUP202, the fragment caused constitutive nickel resistance (of up to 3 or 10 mm Ni²⁺) in various E. coli strains. After cloning into the broad host range vector pVDZ'2 the fragment even expressed low nickel resistance in the transconjugant of Alcaligenes eutrophus AE104. With the 4.3 kb HindIII fragment as a biotinylated DNA probe it was shown by DNA-DNA hybridization that the nickel resistance determinant resides on the chromosome of K. oxytoca and not on its circular plasmid pKO1 (160 kb) or linear plasmid pKO2 (50 kb). Nickel resistance strongly correlated with the presence of the 4.3 kb HindIII fragment in the transconjugants. No homologies were detected when the nickel resistance determinants of other well-known nickel-resistant bacteria, such as A. eutrophus CH34 or A. denitrificans 4a-2, were used as target DNA. Among the 60 strains examined, positive signals only appeared with the 3.1 kb DNA fragment from A. xylosoxydans 31A and the genomic DNA of two enterobacterial strains (5-1 and 5–5) isolated from nickel-rich soil in New Caledonia.     

Copy numbers of chloroplast and nuclear genomes are proportional in mature mesophyll cells of Triticum and Aegilops species

The possibility of estimating the proportion of chloroplast DNA (ctDNA) and nuclear DNA (nDNA) in nucleic-acid extracts by selective digestion with the methylation-sensitive restriction enzyme PstI, was tested using leaf extracts from Spinacia oleracea and Triticum aestivum. Values of ctDNA as percentage nDNA were estimated to be 14.58%±0.56 (SE) in S. oleracea leaves and 4.97%±0.36 (SE) in T. aestivum leaves. These estimates agree well with those already reported for the same type of leaf material. Selective digestion and quantitative dot-blot hybridisation were used to determine ctDNA as percentage nDNA in expanded leaf tissue from species of Triticum and Aegilops representing three levels of nuclear ploidy and six types of cytoplasm. No significant differences in leaf ctDNA content were detected: in the diploids the leaf ctDNA percentage ranged between 3.8% and 5.1%, and in the polyploids between 3.5% and 4.9%. Consequently, nuclear ploidy and nDNA amount were proportional to ctDNA amount (r₍₁₉₎=0.935, P>0.01) and hence to ctDNA copy number in the mature mesophyll cells of these species. There was a slight increase in ctDNA copy numbers per chloroplast at higher ploidy levels. The balance between numbers of nuclear and chloroplast genomes is discussed in relation to polyploidisation and to the nuclear control of ctDNA replication.Abbreviations ctDNA chloroplast DNA - nDNA nuclear DNA - RuBPCase ribulose-1,5-bisphosphate carboxylase - DAPI 4,6-diamidine-2-phenylindole     

DNA fragments of organellar origin in random amplified polymorphic DNA (RAPD) patterns of sugar beet (Beta vulgaris L.)

The technique of random amplified polymorphic DNA (RAPD) offers a broad range of applications in the investigation of plant genomes. A promising prospect is the use of RAPD products as genetic markers. We have investigated a possible organellar source of fragments in RAPD patterns of total DNA. Two nearly-isogenic lines of cytoplasmic male-sterile and male-fertile sugar beet (Beta vulgaris L.) were subjected to RAPD analysis with six different primers. Total, nuclear, mitochondrial (mt), and chloroplast (cp), DNA from each line were investigated. Reproducible DNA fingerprints could be obtained from both organellar DNAs. Differences in band patterns of mtDNA between cytoplasmic male-sterile and -fertile lines were observed with five out of six primers, whereas different cpDNA patterns were generated by one of the primers. Consequently, the RAPD technique can be used to discriminate between different cytoplasms. Clear evidence is provided for the organellar origin of fragments in genomic (total DNA) RAPD patterns. The consequences of these results for the interpretation of RAPD analyses are discussed.