Sequence analysis of Vicia faba highly repeated DNA: the BamHI repeated sequence families

Cleavage of Vicia faba nuclear DNA with the restriction endonuclease BamHI yielded discrete size classes of 250, 850, 900, 990, 1 150, 1 500 and 1 750 bp of highly repetitive DNA. Each of these sequence families comprised about 3% of the total genomic DNA. Some sequence members from each sequence family were cloned in pBR322 and their primary structures determined. Computer analyses of nucleotide sequences suggested the existence of about 60 bp sequence periodicity within the repeating unit of the 990 bp sequence family, though the extent of homology among the surmised shorter subrepeat units was very low. With other BamHI sequence families, however, the data did not show any clear internal sequence periodicity. The repeat units of the 850 bp and 1 750 bp sequence families contained nucleotide sequences homologous to the 250 bp family sequence. No sequence relationship between or among other sequence families was observed. There was 13–25% sequence variation among 6 cloned members of the 250 bp family and probably also among those of other BamHI repeat families. DNA sequences homologous to these V. faba BamHI repeat families were detected in Pisum sativum DNA by Southern blot hybridization. Furthermore, very weak cross-hybridization was observed with plant DNAs from Phaseolus vulgaris, Triticum aestivum, Cucumis sativus and Trillium kamtschaticum.     

Chloroplast ribosomal RNA genes in Euglena gracilis exist as three clustered tandem repeats

Chloroplast ribosomal DNA from Euglena gracilis was partially purified, digested with restriction endonucleases BamHI or EcoRI and cloned into bacterial plasmids. Plasmids containing the ribosomal DNA were identified by their ability to hybridize to chloroplast ribosomal RNA and were physically mapped using restriction endonucleases BamHI, EcoRI, HindIII and HpaI. The nucleotide sequences coding for the 16S and the 23S chloroplast ribosomal RNAs were located on these plasmids by hybridizing the individual RNAs to denatured restriction endonuclease DNA fragments immobilized on nitrocellulose filters. Restriction endonuclease fragments from chloroplast DNA were analyzed in a similar fashion. These data permitted the localization on a BamHI map of the chloroplast DNA three tandemly arranged chloroplast ribosomal RNA genes. Each ribosomal RNA gene consisted of a 4.6 kilobase pair region coding for the 16S and 23S ribosomal RNAs and a 0.8 kilobase pair spacer region. The chloroplast ribosomal DNA represented 12% of the chloroplast DNA and is G + C rich.     

Physical and genetic structure of the glpK-cpxA interval of the Escherichia coli K-12 chromosome

Summary Mutations at the cpxA locus of Escherichia coli K-12 affect cellular processes that are not otherwise related. We have now determined the physical and genetic structure of the E. coli chromosome in the region of cpxA (87.5 min). Our results indicate that cpxA is a single gene. Previous studies showed cpxA to be linked to tpiA. We therefore isolated two tpiA ⁺ recombinant plasmids, pRA200 and pRA300, from EcoRI and BamHI digests of F133, respectively. By genetic complementation or enzyme overproduction, the 9.5 kb EcoRI fragment in pRA200 was shown to include glpK, tpiA and cdh. The 13.6 kb BamHI fragment of pRA300 lacks glpK, but includes tpiA, pfkA and cpxA. Neither fragment complemented a deletion of the rha operon. These data indicate the chromosomal gene order: 87 min-rha-cpxA-pfkA-cdh-tpiA-glpK-88 min. The EcoRI and BamHI fragments overlap in an interval corresponding to about 8.2 kb of DNA. The total region of the E. coli K12 chromosome covered by the two fragments is about 15 kb. A terminal 2 kb EcoRI-BamHI fragment from pRA300 complemented the chromosomal cpxA2[Ts] allele with respect to isoleucine and valine synthesis, RNA bacteriophage sensitivity and surface exclusion in Hfr strains, and envelope protein composition. Complementation occurred when the fragment was subcloned in pBR325 but not when it was subcloned in pBR322, suggesting that the 2 kb fragment lacks expression sequences that are supplied by cat (chloramphenicol acetyltransferase gene) expression sequences of pBR325. The cpxA locus on the E. coli chromosome was established with respect to two chromosomal Tn10 insertions by a combination of genetic and physical analyses. The locus established by those analyses was consistent with the location of the 2 kb EcoRI-BamHI fragment in the physical map of the region. Physical analyses of (rha-pfkA) and (rha-tpiA) deletion strains showed that they lack cpxA and surrounding genes. Since these strains were viable, cpxA is not essential under all growth conditions.     

Construction of two BAC libraries from cucumber (Cucumis sativus L.) and identification of clones linked to yield component quantitative trait loci

Two bacterial artificial chromosome (BAC) libraries were constructed from an inbred line derived from a cultivar of cucumber (Cucumis sativus L.). Intact nuclei were isolated and embedded in agarose plugs, and high-molecular-weight DNA was subsequently partially digested with BamHI or EcoRI. Ligation of double size-selected DNA fragments with the pECBAC1 vector yielded two libraries containing 23,040 BamHI and 18,432 EcoRI clones. The average BamHI and EcoRI insert sizes were estimated to be 107.0 kb and 100.8 kb, respectively, and BAC clones lacking inserts were 1.3% and 14.5% in the BamHI and EcoRI libraries, respectively. The two libraries together represent approximately 10.8 haploid cucumber genomes. Hybridization with a C₀t-1 DNA probe revealed that approximately 36% of BAC clones likely carried repetitive sequence-enriched DNA. The frequencies of BAC clones that carry chloroplast or mitochondrial DNA range from 0.20% to 0.47%. Four sequence-characterized amplified region (SCAR), four simple sequence repeat, and an randomly amplified polymorphic DNA marker linked with yield component quantitative trait loci were used either as probes to hybridize high-density colony filters prepared from both libraries or as primers to screen an ordered array of pooled BAC DNA prepared from the BamHI library. Positive BAC clones were identified in predicted numbers, as screening by polymerase chain reaction amplification effectively overcame the problems associated with an overabundance of positives from hybridization with two SCAR markers. The BAC clones identified herein that are linked to the de (determinate habit) and F (gynoecy) locus will be useful for positional cloning of these economically important genes. These BAC libraries will also facilitate physical mapping of the cucumber genome and comparative genome analyses with other plant species.     

Difference Between Xanthomonas campestris pv. phlei and X.c pv. graminis Revealed by Genomic Fingerprinting and Restriction Fragment Length Polymorphism Patterns

Genomic DNA was prepared from 16 strains of Xanthomonas campestris pv. graminis and Xanthomonas campestris pv. phlei isolated from six species of forage grasses in four countries. The two pathovars could be distinguished clearly by genomic fingerprints generated by EcoRI, BamHI or HindIII digestion. DNA profiles produced by HindIII digestion could differentiate not only between the two pathoars but also among strains within the same pahtovar from different countries. A 1.6 kb EcoRI fragment was cloned from genomic DNA of strain LMG726 and used to detect restriction fragment-length polymorphism among the same strains. EcoRI and BamHI polymorphisms were seen between the two pathovars probed with this 1.6 kb EcoRI fragment (p726EI probe). These polymorphisms appeared to be highly conserved and unique for each pathovar, consistent with previous grouping of the strains based on other criteria.     

Physical characterization of the plasmid pON5300

Summary The antibiotic resistance plasmid Rldrd19Km-which has spontaneously lost its kanamycin resistance marker, and its derivative pON5300, were analysed using the restriction endonucleases SalI, BamHI, HindIII and EcoRI. The fragment patterns were compared with that of the Rldrd19 and the fragments responsible for kanamycin resistance were found to be missing in Rldrd19Km ^– and pON5300. In these plasmids a 7 Mg/mol EcoRI fragment was observed instead of the D (6.3 Mg/mol) fragment of Rldrd19. Further a new 6 Mg/mol EcoRI restriction fragment was observed in pON5300. Using double digestions it was shown that the new fragment does not carry restriction sites for HindIII, BamHI and SalI endonucleases. The non-homology of the analysed plasmid was proved electron microscopically by heteroduplex techniques. The possibility of amplification in the regulatory region for the expression of R-determinants in pON5300 is discussed.     

Intra-individual heterogeneity of rDNA allows the distinction between two closely related species in the Genus Helianthus

The Ribosomal DNAs of Helianthus annuus and H. argophyllus were analysed. Total DNA from single individuals of six cultivated lines, one wild ecotype ofH. annuus, and three ecotypes of H. argophyllus, were digested with various restriction enzymes. Hybridisation of Southern blots with sunflower ribosomal probes containing most of the interspacer regions (R3) or the 25 s coding region (R2) reveals different patterns from those expected: while no difference between H. annuus and H. argophyllus had been observed in previous rDNA RFLP analysis, our study clearly distinguished the two species on the basis of two different patterns when using R3 and BamHI, BstYI, or EcoRI/BamHI. Furthermore, the sum of the fragment weights of the BamHI restriction patterns was much greater than that of the rDNA entire unit-weight space. The co-existence of different rDNA units within single individuals is proposed as a model to explain these results. Four rDNA units were distinguished, which differed in their state of methylation and by the presence of mutations at two BamRI restriction sites. H. annuus individuals displayed two types of rDNA units while H. argophyllus individuals displayed four types.     

Cloning of a 1.1-kb Fragment Including srnB+ Gene in the F Plasmid and Isolation of an srnB Mutant

The srnB⁺ gene, promoting stable RNA degradation at 42 C in the presence of rifampin, was cloned by using pBR322 as a vector; it was located on a 1.1-kilobase (kb) EcoRI/BamHI fragment between 1.4 and 2.5 kb of the F plasmid. The region between 93.3 and 4.0 kb of the F plasmid was physically mapped by using restriction endonucleases EcoRI, HindIII, BamHI, PstI, and SmaI, with reference to a standard HindIII site in IS3. An srnB1 mutant was isolated from a chimeric plasmid, pOY54, after treatment of its DNA with hydroxylamine. The srnB1 allele on the F fragment of the mutant plasmid was recessive to the wild-type allele. Thermal elevation of cell cultures to 39 C was high enough to promote RNA degradation in strain YS12 carrying plasmid pOY54.     

An integrative plasmid and multiple-sized plasmids of Pseudomonas syringae pv. phaseolicola have extensive homology

Summary Plasmids isolated from five strains of the bean pathogen Pseudomonas syringae pv. phaseolicola were characterized by restriction endonuclease and filter hybridization analyses. BamHI and EcoRI restriction patterns revealed that total plasmid DNA from each strain had a high level of sequence homology with pMC7105, a 148 kbp integrative plasmid found in a sixth strain. Only six BamHI fragments from the eight plasmids in these strains failed to hybridize with pMC7105 probe. Four of these fragments, three from pPP6520 and one from pPP6525 of strain PP652, hybridized strongly to plasmid DNA from a closely-related pathovar, P. syringae pv. glycinea. BamHI fragment 8, which is involved in the integration of pMC7105 into the host chromosome, contains a repeat sequence that was present on all the plasmids except pPP6120 (6.8 kbp), pPP6310 (40 kbp) and pPP6520 (45 kbp). Every plasmid but pPP6520 had fragments that showed weak hybridization to the small plasmid, pPP6120. This homology suggests that a second repetitive sequence is common to these plasmids. The large plasmids (148 to 151 kbp) were essentially identical to pMC7105. The intermediate plasmids (122 to 128 kbp) appeared to be derived mainly from pMC7105 or a related plasmid, whereas the smaller plasmids (6.8 to 45 kbp) appear to have been derived in part from sequences not present in pMC7105.     

Physical mapping of BglII, BamHI, EcoRI, HindIII and PstI Restriction fragments of bacteriophage P1 DNA

Summary A cleavage map of bacteriophage P1 DNA was established by reciprocal double digestion with various restriction endonucleases. The enzymes used and, in parenthesis, the number of their cleavage sites on the P1clts genome are: PstI (1), HindIII (3), BglII (11), BamHI (14) and EcoRI (26). The relative order of the PstI, HindIII and BglII sites, as well as the order of 13 out of the 14 BamHI sites and of 17 out of the 26 EcoRI sites was determined. The P1 genome was divided into 100 map units and the PstI site was arbitrarily chosen as reference point at map unit 20.DNA packaging into phage heads starts preferentially at map unit 92 and it proceeds towards higher map units. The two inverted repeat sequences of P1 DNA map about at units 30 and 34.     

Physical mapping of homologous segments of mitochondrial episomes from S male-sterile maize

Restriction endonuclease maps of two double-stranded plasmid-like DNAs, 6180 and 5175 bp each, isolated as linear molecules from the mitochondria of S-type cytoplasmic male-sterile maize were prepared. Twelve cleavage sites were mapped in each using HindIII, XhoI, EcoRI, SacI, XbaI, SalI, BamHI, and BstEII. BamHI does not cleave S-1 DNA and SalI does not cleave S-2 DNA. A 1150-bp homologous sequence in addition to the 200-bp terminal inverted repeats was terminally oriented on both DNAs by reciprocal hybridization and heteroduplex analysis.     

Physical characterization of plasmids from Streptomyces kasugaensis MB273

Plasmid DNA of molecular weight 6.8 × 10⁶ was isolated from Streptomyces kasugaensis MB273. The plasmid DNA showed a single CsCl-ethidium bromide density gradient centrifugation, in neutral sucrose gradient centrifugation, and in agarose gel electrophoresis. When this DNA was digested with BamHI or SalI endonucleases, an unexpected number of fragments were found on agarose gel electrophoresis. Molecular weight summation of fragments obtained from double restriction enzyme digestions suggested that the plasmid DNA was a mixture of two different plasmids. This was confirmed by constructing recombinant plasmids between S. kasugaensis plasmid DNA and pBR322, and then by isolating two plasmids after SalI endonuclease treatment followed by sucrose gradient centrifugation. One of the plasmids (pSK1) had a single recognition site for BamHI, EcoRI, and SalI, and three sites for BglII. The other plasmid (pSK2) had a single recognition site for EcoRI and BglII, two recognition sites for BamHI, and no cleavage site for SalI. The cleavage maps of these plasmids were constructed using several restriction endonucleases.     

Complex organization of zein genes in maize

We have examined the fragments of maize nuclear DNA that are homologous to three cloned cDNAs prepared from zein mRNA. Southern blots of high molecular weight ( > 40 kb) maize nuclear DNA cleaved with BamHI, HindIII or EcoRI were hybridized to three zein cDNA plasmid probes. Multiple restriction fragments in a wide range of size classes were observed to hybridize with all three probes. Our results indicate the occurrence of families of genes in the maize genome that are related by their sequences to a given zein mRNA sequence.     

Spodoptera frugiperda Nuclear Polyhedrosis Virus Genome: Physical Maps for Restriction Endonucleases BamHI and HindIII

The physical map for the genome of Spodoptera frugiperda nuclear polyhedrosis virus was constructed for restriction endonucleases BamHI and HindIII. The ordering of the restriction fragments was accomplished by cross-blot hybridization of BamHI, HindIII, and EcoRI fragments. The alignment of the HindIII fragments within the BamHI map was achieved by double digestion with the two restriction endonucleases followed by cross-blot hybridization. The results showed that the viral genome consisted of mainly unique sequences. In addition, the circular nature of the viral genome was reaffirmed.     

Characterization of the Pea Chloroplast DNA OriA Region

One of the two origins of replication in pea chloroplast DNA (oriA) maps in the rRNA spacer region downstream of the 16S rRNA gene, and further characterization of this origin is presented here. End-labeling of nascent DNA strands from in vivo replicating ctDNA was used to generate probes for Southern hybridization. Hybridization data identified the same region that was previously mapped to contain D-loops by electron microscopy. Subclones of the ori A region were tested for their ability to support in vitro DNA replication using a partially purified pea ctDNA replication system. Two-dimensional agarose gel electrophoresis identified replication intermediates for clones from the region just downstream of the 16S rRNA gene, with a 450-bp SacI-EcoRI clone showing the strongest activity. The experiments presented in this paper identify the 940 base pair region in the rRNA spacer between the 3′ end of the 16S rRNA gene and the Eco RI site as containing oriA. Previous studies by electron microscopy localized the D-loop in the spacer region just to the right of the Bam HI site, but the experiments presented here show that sequences to the left of the BamHI site are required for replication initiation from ori A. DNA sequence analysis of this region of pea ctDNA shows the presence of characteristic elements of DNA replication origins, including several direct and inverted repeat sequences, an A + T rich region, and dna A-like binding sites, most of which are unique to the pea ctDNA ori A region when compared with published rRNA spacer sequences from other chloroplast genomes.     

The Organization of rRNA Genes in Vicia faba

Vicia faba DNA was digested with restriction endonucleases andfractionated on 1% agarose gels. The physical map for EcoRI,BamHI and XbaI cleavage sites in V. faba cytosol rDNA was determinedusing the Southern blot hybridization technique. XbaI and BglIIdigestion or partial EcoRI digestion showed that the lengthof a major repeat unit of V. faba rDNA is 6.7 x 10⁶ daltons.EcoRI and BamHI cleaved this unit into two and five DNA fragments,respectively. (Received April 23, 1981; Accepted July 20, 1981)     

Restriction analysis of lambda EMBL3 background recombinants: occurrence of lambda phages carrying a head to tail oriented left arm DNA sequence

Summary Eight representative recombinant background clones of λEMBL3 were analysed usingKpnI,BamHI,SalI,EcoRI andHindIII digestion. We found that λEMBL3 carries its own left arm in theBamHI cloning site. In this way, recombinant molecules were found to be generated which can grow onEscherichia coli strain NM539. In all cases analysed, the left arm DNA was inserted in a head to tail orientation. Seven clones carried a restoredBamHI site at thecos site-BamHI site connection. In the region where the inserted left arm and the right arm were ligated,BamHI cloning produces a large palindromic sequence consisting of two polylinkers. ThisBamHI site was incompletely cleaved in all cases analysed. We assume that a part of the λ DNA molecule in this region shows a cruciform structure prohibiting recognition or cleavage of this site by restriction endonucleaseBamHI.     

Convenience of plasmid R6K higher-copy-number deletion derivative for cloning of larger DNA fragments

Vector properties of plasmid pNH602, a higher-copy-number deletion mutant of plasmid R6K, were tested by cloning the 6.5 Mg/molBam HI pSa fragment carrying determinants of resistance to four antibiotics in the uniqueBam HI site of pNH602. The resultingin vitro constructed recombinant plasmid pNH606 was found to be stable, conjugative, multicopy (20 copies of pNH606 perE. coli chromosome were estimated) and to ensure the increased expression of different genes responsible for the antibiotic resistance. The pSa fragment inserted in theBam HI site of plasmid pNH602 (located in Tn2660) was proved to be transposable to other replicons. Recombinant plasmid pNH606 was analyzed using restriction enzymesBam HI andEco RI and its physical and genetic map was constructed.     

Restriction endonuclease mapping and mutagenesis of the F sex factor replication region

Summary The plasmids pSC138 and pML31 each contain the EcoRI-generated f5 replicator fragment of the conjugative plasmid F in addition to an EcoRI fragment encoding antibiotic resistance: ampicillin resistance derived from Staphylococcus aureus in pSC138 and kanamycin resistance from Escherichia coli in pML31. We have mapped one HindIII and two BamHI restriction sites in the f5 region of these plasmids and one HindIII site in the antibiotic resistance region of each plasmid. The HindIII site in the Km region of pML31 occurs in the kan gene whereas the HindIII site in the Ap region of pSC138 appears to occur in an area important for the regulation of -lactamase production.By means of in vitro recombinant DNA manipulation of plasmids pML31 and pSC138, we have shown that 1.9x10⁶ daltons of the 6.0x10⁶ dalton f5 fragment can be deleted without disrupting plasmid stability. In addition, we have used these same techniques to isolate a novel F-controlled Ap plasmid cloning vehicle which contains a single restriction site for each of the enzymes EcoRI, HindIII, and BamHI. This cloning vehicle has been linked via either its EcoRI or HindIII site to a ColE1 plasmid replicon to yield stable recombinants.     

Restriction enzymes increase efficiencies of illegitimate DNA integration but decrease homologous integration in mammalian cells

Mammalian cells repair DNA double-strand breaks by illegitimate end-joining or by homologous recombination. We investigated the effects of restriction enzymes on illegitimate and homologous DNA integration in mammalian cells. A plasmid containing the neo^R expression cassette, which confers G418 resistance, was used to select for illegitimate integration events in CHO wild-type and xrcc5 mutant cells. Co-transfection with the restriction enzymes BamHI, BglII, EcoRI and KpnI increased the efficiency of linearized plasmid integration up to 5-fold in CHO cells. In contrast, the restriction enzymes did not increase the integration efficiency in xrcc5 mutant cells. Effects of restriction enzymes on illegitimate and homologous integration were also studied in mouse embryonic stem (ES) cells using a plasmid containing the neo^R gene flanked by exon 3 of Hprt. The enzymes BamHI, BglII and EcoRI increased the illegitimate integration efficiency of transforming DNA several-fold, similar to the results for CHO cells. However, all three enzymes decreased the absolute frequency of homologous integration ~2-fold, and the percentage of homologous integration decreased >10-fold. This suggests that random DNA breaks attract illegitimate recombination (IR) events that compete with homology search.