Molecular cloning and mapping of a deletion derivative of the plasmid Rts 1

The plasmid pTW20 is a deletion derivative of the kanamycin resistance plasmid Rts1. By digesting pTW20 DNA with EcoRI endonuclease six fragments were generated, and each was cloned in the vector plasmid pACYC184. These cloned EcoRI fragments were further digested with various endonucleases, and the cleavage map of pTW20 was constructed. A SalI fragment (1.5 Md) in E1 (the largest EcoRI fragment; 11.5 Md) contained the genes kan (kanamycin resistance) and puv (uv sensitization of host). An electron microscopy study of a BamHI fragment containing kan revealed the presence of a transposon-like structure in the fragment. The smallest EcoRI fragment E6 (2.0 Md) was capable of autonomous replication in a polA host, indicating that E6 contained replication genes of pTW20. These genes were found to be located on a 1.1-Md HindIII fragment in E6. Two incompatibility genes were identified on the pTW20 genome, one located on each of the fragments E6 and E5 (3.5 Md), and expressed T incompatibility independently. The nature of the temperature sensitivity of pTW20 was discussed.     

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.     

Physical and functional map of the hemolytic plasmid pSU316

A restriction endonuclease analysis of the hemolytic plasmid pSU316 has allowed location of the cleavage sites for the endonucleases BamHI, XbaI, KpnI, BglII, SalGI, EcoRI, and HindIII. Hybridization experiments between pSU316 and pED100 have shown that the tra region of pSU316 lies in a segment comprising part of SalGI fragments S-1 and S-3 and the entire fragment S-4. The positions of other plasmid coded functions, namely the replication functions and α-hemolysin production, have been determined in the physical map.     

Plasmid pEA566 from Erwinia aroideae

A new plasmid designated pEA566 was isolated from Erwinia aroideae. The molecular weight of the plasmid, as determined by neutral and alkaline sucrose gradient centrifugation, electron microscopy, and agarose gel electrophoresis, was 6.6 × 10⁶. The plasmid replicated under relaxed control, had three cleavage sites for KpnI restriction endonuclease, and no sites for EcoRI, BamHI, SalI, PstI, and HindIII.     

Restriction endonuclease analyses of the incompatibility group P-1 plasmids RK2, RP1, RP4, R68, and R68.45

The P-group plasmids RP1, RP4, RK2, R68 and R68.45 were analyzed by the following restriction endonucleases:BamHI,BglII,EcoRI,HindIII,PstI,PvuII,SalI, andSmaI. No differences between RP1, RP4, and RK2 were found, and the plasmid R68.45 was found to contain a direct duplication of an existing DNA sequence in R68. Our map of RK2 differs from the published map of RK2 in the corresponding region of the R68 map that is duplicated in R68.45.     

Physical and functional mapping of Tn2603, a transposon encoding ampicillin, streptomycin, sulfonamide, and mercury resistance

Summary A map of cleavage sites for restriction endonucleases EcoR1, BamHI, HindIII, and SalI on Tn2603, a transposon encoding resistance to ampicillin, streptomycin, sulfonamide, and mercury, was constructed by an analysis of restriction cleavage patterns of plasmid pMK1.:: Tn2603 and its deletion derivative. By cloning the fragments generated from pMK1::Tn2603 with these restriction endonucleases to a pACYC184 plasmid vehicle, the regions necessary for expression of resistance were located on the restriction cleavage map of Tn2603. Ampicillin, streptomycin, and sulfonamide-resistance genes were mapped in a cluster on the region between the center and the right and the mercury-resistance gene was located to the left of the map. The final functional map of Tn2603 was compared with those of Tn4 and Tn21 and the evolutional relationships between them were discussed.     

Cloning and characterization of EcoRI and HindIII restriction endonuclease-generated fragments of antibiotic resistance plasmids R6-5 and R6

Summary DNA fragments generated by the EcoRI or HindIII endonucleases from the low copy number antibiotic resistance plasmids R6 and R6-5 were separately cloned using the high copy number ColEl or pML21 plasmid vectors and the insertional inactivation procedure. The hybrid plasmids that were obtained were used to determine the location of the EcoRI and HindIII cleavage sites on the parent plasmid genomes by means of electron microscope heteroduplex analysis and agarose gel electrophoresis. Ultracentrifugation of the cloned fragments in caesium chloride gradients localized the high buoyant density regions of R6-5 to fragments that carry the genes for resistance to streptomycin-spectinomycin, sulfonamide, and mercury and a low buoyant density region to fragments that carry the tetracycline resistance determinant. Functional analysis of hybrid plasmids localized a number of plasmid properties such as resistances to antibiotics and mercury and several replication functions to specific regions of the R6-5 genome. Precise localisation of the genes for resistance to chloramphenicol, kanamycin, fusidic acid and tetracycline was possible due to the presence of identified restriction endonuclease cleavage sites within these determinants.Only one region competent for autonomous replication was identified on the R6-5 plasmid genome and this was localized to EcoRI fragment 2 and HindIII fragment 1. However, two additional regions of replication activity designated RepB and RepC, themselves incapable of autonomous replication but capable of supporting replication of a linked ColE1 plasmid in polA^– bacteria, were also identified.     

Characterisation of Tn501, a transposon determining resistance to mercuric ions

Summary The transposon encoding resistance to mercuric ions, Tn501, is 5.2 (±0.1)×10⁶ daltons and is bounded by small inverted repeats. The restriction sites for the restriction endonucleases EcoRI, HindIII and SalGI have been mapped on the element.     

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.     

Permutation of the DNA in small-headed virions of coliphage P1

Summary Use of restriction endonucleases BglII, EcoRI, BamHI, and HindIII, has established that in small-headed (PIS) virions of coliphage P1, as a population, the entire genome found in big-headed (P1B) virions is represented. In addition, the origin and direction of DNA packaging are identical in P1S and P1B virions.     

Isolation of plasmids present in thermophilic strains from hot springs in Jordan

The plasmid profile of two thermophilic bacterial strains isolated from recreation thermal springs in Jordan has been investigated. These strains are Streptococcus thermophilus and Bacillus sp1, which have been isolated from Zerka – Maeen and Himma hot springs respectively. Supercoiled and circular plasmid forms were detected, explaining the effect of DNA conformation on the mobility of the plasmid in the agarose gel electrophoresis. Two plasmids have been isolated and characterized by restriction endonucleases to facilitate their use as cloning vectors in thermophilic strains. The sizes of the plasmids were approximately 3 kb (from Streptococcus thermophilus) and 7 kb (from Bacillus spl). These plasmids were then digested with three different restriction enzymes (EcoRI, Bam HI, and HindIII), one of which was found to possess a single site for both plasmids, this enzyme is EcoRI.     

Restriction map of CELO virus DNA

A restriction map of chicken embryo lethal orphan (CELO) virus DNA was reported with ten restriction endonucleases (XbaI, XhoI, SalI, HindIII, EcoRI, BglI, KpnI, BamHI, PstI and SstI). CELO virus DNA was estimated by comparing CELO virus DNA fragments with marker DNA fragments to have a molecular weight of 29.3·10⁶.     

Physical map of DNA from a new cauliflower mosaic virus strain

The restriction enzymes AluI, BamHI, BglII, EcoRI, HindIII, and SalI have been used to characterize and map a new cauliflower mosaic virus strain (Cabb-S). These fragments have been ordered by examining their overlapping regions after double enzymatic digestion. The single SalI cleavage site was chosen as the point of origin. We compare this strain with those already described.     

Molecular cloning of restriction fragments and construction of a physical and genetic map of the Escherichia coli plasmid R538-1.

A genetic and physical map of Escherichia coli plasmid R538-1 was constructed using restriction endonucleases and molecular cloning techniques. R538-1 DNA was cleaved into 12 fragments by endonuclease · R · EcoRI, 6 fragments by endonuclease R · HindIII, and 3 fragments by endonuclease R · BamHI. The order of these fragments was determined by standard restriction fragment mapping techniques. Endo · R · EcoRI, endo · R · HindIII, endo · R · BamHI, and endo · R · PstI fragments obtained from R538-1 and ColE1-derived plasmids (pMB9, ColE1Ap^r, and pBR322) were ligated in vitro and used to transform E. coli C600. Transformants were selected for antibiotic resistance markers carried by R538-1. Analysis of the R538-1 fragments contained in these hybrid plasmids permitted the construction of a genetic map of the R538-1 plasmid. The genetic map of this plasmid is very similar to that of plasmid R100.     

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.     

Electron microscopic analysis of two nonconjugative derivatives of plasmid R1drd-19Km− fromEscherichia coli

The plasmids pON5300 and pON5304, nonconjugative variants of the plasmid R1drd-19Km, were analyzed by electron microscopy. It was found by heteroduplex mapping that a 1.4 kb DNA segment was inserted intoEcoRI E fragment of both plasmids, where sometra-genes andoriT are localized. Although this DNA segment was mapped to the same region its orientation was different in each of the two plasmids. The inserted DNA segment was identified as an IS10R sequence on the basis of analysis of self-annealed molecules of pON5304 and their cleavage withEcoRV restriction enzyme. These methods enable us not only to map IS10R sequences on 87 kb pON5300 and 65 kb pON5304 molecules, respectively, but also to define their orientation.     

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.     

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 of the root-inducing plasmid of Agrobacterium rhizogenes 1855

The root-inducing plasmid of the agropine type Agrobacterium rhizogenes 1855 was mapped by means of the restriction endonuclease EcoRI. The circular arrangement of the more than 60 fragments generated by this enzyme was established by electrophoretic analysis of pBR322 clones harboring overlapping segments of pRi1855 derived by partial digestion with EcoRI. A large region of the plasmid comprising the T-DNA was mapped with two additional enzymes, BamHI and HindIII, by means of Southern blot hybridizations between the fragments generated by the three enzymes.     

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.