Biochemical studies on bovine adenovirus type 3. III. Cleavage maps of viral DNA by restriction endoncleases EcoRI, BamHI, and HindIII.

Cleavage of bovine adenovirus type 3 (BAV3) DNA by restriction endonucleases EcoRI, BamHI, and HindIII yielded 7 (A to G), 5 (A to E), and 12 (A to L) fragments, respectively. The order of these fragments has been determined to be GDACBFE for EcoRI fragments, AEBDC for BamHI fragments, and JEBKACDHFGIL for HindIII fragments, and cleavage sites of these enzymes have been mapped on the genome of BAV3. BAV3 preparation contains incomplete virus whose genome has a deletion of about 13% of complete virus genome. Restriction endonuclease digestion of the incomplete virus DNA revealed that EcoRI E and F, BamHI C and HindIII G, I, and L fragments were deleted. Therefore, the deleted region of incomplete virus DNA is located near the right-hand end of the BAV3 DNA molecule, a result consistent with our previous electron-microscopic observations on heteroduplex molecules formed between complete and incomplete BAV3 DNA.     

Versatile mercury-resistant cloning and expression vectors

Cloning vectors have been constructed employing two diverse replicons, IncQ and P15A. Both vectors confer resistance to kanamycin (Km) and mercuric ions (Hg2+). One of these vectors, pDG105, is a broad-host-range, nonconjugative, oligocopy IncQ plasmid, which is capable of transforming Escherichia coli, Acinetobacter calcoaceticus, and Pseudomonas putida. The second vector, pDG106, is a narrow-host-range, multicopy cloning vector compatible with pBR322. Both vectors contain unique cloning sites in the Km-resistance gene for HindIII, SmaI, and XhoI, as well as unique EcoRI and ScaI sites in the mer operon. Cloning into the EcoRI site in the mer operon results in the mercury "supersensitive" phenotype, easily detectable by replica plating. Insertion of the galK gene into the EcoRI site in the mer operon results in Hg2+-inducible galactokinase activity, demonstrating the application of these plasmids as regulated expression vectors.     

Human cytomegalovirus DNA: BamHI, EcoRI and PstI restriction endonuclease cleavage maps

The cloned HindIII fragments of human cytomegalovirus (HCMV) strain AD169 DNA were mapped with respect to the BamHI, EcoRI and PstI restriction endonuclease cleavage sites. Composite restriction endonuclease cleavage maps for the entire virus genome were constructed using the previously established linkages between the HindIII fragments.     

Protection of particular cleavage sites of restriction endonucleases by distamycin A and actinomycin D.

It is shown here that distamycin A and actinomycin D can protect the recognition sites of endo R.EcoRI, EcoRII, HindII, HindIII, HpaI and HpaII from the attack of these restriction endonucleases. At proper distamycin concentrations only two endo R.EcoRI sites of phage lambda DNA are available for the restriction enzyme--sRI1 and sRI4. This phenomenon results in the appearance of larger DNA fragments comprising several consecutive fragments of endo R.EcoRI complete cleavage. The distamycin fragments isolated from the agarose gels can be subsequently cleaved by endo R.EcoRI with the yield of the fragments of complete digestion. We have compared the effect of distamycin A and actinomycin D on a number of restriction endonucleases having different nucleotide sequences in the recognition sites and established that antibiotic action depends on the nucleotide sequences of the recognition sites and their closest environment     

Molecular cloning and physical mapping of the tupaia herpesvirus genome.

Purified virion DNA of about 200 kilobase pairs of tupaia herpesvirus strain 2 was cleaved with EcoRI or HindIII restriction endonuclease. Restriction fragments representing the complete viral genome including both termini were inserted into the EcoRI, HindIII, and EcoRI-HindIII sites of the bacterial plasmid pAT153. Restriction maps for the restriction endonucleases EcoRI and HindIII were constructed with data derived from Southern blot hybridizations of individual viral DNA fragments or cloned DNA fragments which were hybridized to either viral genome fragments or recombinant plasmids. The analysis revealed that the tupaia herpesvirus genome consists of a long unique sequence of 200 kilobase pairs and that inverted repeat DNA sequences of greater than 40 base pairs do not occur, in agreement with previous electron microscopic data. No DNA sequence homology was detectable between the tupaia herpesvirus DNA and the genome of murine cytomegalovirus, which was reported to have a similar structure. In addition, seven individual isolates of tupaia herpesvirus were characterized. The isolates can be grouped into five strains by their DNA cleavage patterns.     

Cloning and endonuclease restriction analysis of argF and of the control region of the argECBH bipolar operon in Escherichia coli.

A 1.8 kb DNA fragment, liberated by endonuclease HindIII, contains the control region of the argECBH bipolar operon near one end and the weak secondary promoter of argH at the other extremity; it has been cloned in plasmid pBR322. The same plasmid vector has been used to clone the argF gene liberated from the chromosome by endonuclease BamHI. Restriction patterns for the two hybrid plasmids have been determined, using enzymes AluI, BglI, EcoRI, HaeIII, HincII, HindIII, HpaI and II, PstI and SalI. Two AluI sites situated on either side of and close to a HincII target delineate two short fragments covering the whole of the argECBH control region. The argF control elements are located in a region accessible to further dissection by BamHI, EcoRI, PstI and HindIII. Carriers of the argF plasmid produce extremely high amounts of ornithine carbamoyltransferase, a feature useful for purification of this enzyme.     

Restriction enzyme analysis of the Plasmid ColIb DNA

Summary Plasmid ColIb (61.5 Mdal) was digested with restriction enzymes EcoRI and HindIII. The DNA digestion products were separated by electrophoresis on 1.2% agarose gels. There were identified 22 fragments of ColIb DNA generated by the endonuclease EcoRI and 21 fragments produced by HindIII. Molecular weights of the fragments were estimated. The total molecular weight of the fragments generated by EcoRI was 61.42 Mdal and for HindIII fragments 62.79 Mdal.     

Plasmid vector for cloning, determination of nucleotide sequence and directed assembly of DNA fragments

A plasmid vector pNIMB has been constructed (starting) from the pUR222 plasmid as a result of substitution of the polylinker containing restriction sites: PstI, SalGI, AccI, HindII, BamHI EcoRI and by other synthetic linkers with additional sites for HindIII and HgaI. Plasmid pNIMB does not differ from the parent one phenotypically. Compared to pUR222 the vector contains an additional site for cloning HindIII fragments of DNA and allows to clone SalGI/BamHI- and PstI/SalGI-fragments. Cloning of DNA fragments in all seven unique sites of pNiMB gives the possibility for sequencing the fragments avoiding their isolation from the gel. Moreover, this vector may be useful for cloning and directed assembly of chemically synthesised DNA fragments when the endonuclease HgaI sites are used.     

Specific-purpose plasmid cloning vectors. II. Broad host range, high copy number, RSF1010-derived vectors, and a host-vector system for gene cloning in Pseudomonas

Host-vector systems have been developed for gene cloning in the metabolically versatile bacterial genus Pseudomonas. They comprise restriction-negative host strains of Pseudomonas aeruginosa and P. putida and new cloning vectors derived from the high-copy-number, broad-host-range plasmid RSF1010, which are stably maintained in a wide range of Gram-negative bacteria. These plasmids contain EcoRI, SstI, HindIII, XmaI, XhoI, SalI, BamHI, and ClaI insertion sites. All cloning sites, except for BamHI and ClaI, are located within antibiotic-resistance genes' insertional inactivation of these genes during hybrid plasmid formation provides a readily scored phenotypic change for the rapid identification of bacterial clones carrying such hybrids. One of the new vector plasmids is a cosmid that may be used for the selective cloning of large DNA fragments by in vitro lambda packaging. An analogous series of vectors that are defective in their plasmid-mobilization function, and that exhibit a degree of biological containment comparable to that of current Escherichia coli vector plasmids, are also described.     

Characterization of the guinea pig cytomegalovirus genome by molecular cloning and physical mapping.

Fragments of guinea pig cytomegalovirus (GPCMV) DNA produced by HindIII or EcoRI restriction endonuclease digestion were cloned into vectors pBR322 and pACYC184, and recombinant fragments representing ca. 97% of the genome were constructed. Hybridization of 32P-labeled cloned and gel-purified HindIII, EcoRI, and XbaI fragments to Southern blots of HindIII-, EcoRI-, and XbaI-cleaved GPCMV DNA verified the viral origin of cloned fragments and allowed construction of HindIII, EcoRI, and XbaI restriction maps. On the basis of the cloning and mapping experiments, the size of GPCMV DNA was calculated to include 239 kilobase pairs, corresponding to a molecular weight of 158 X 10(6). No cross-hybridization between any internal fragments was seen. We conclude that the GPCMV genome consists of a long unique sequence with terminal repeat sequences but without internal repeat regions. In addition, GPCMV DNA molecules exist in two forms. In the predominant form, the molecules demonstrate sequence homology between the terminal fragments; in the minor population, one terminal fragment is smaller by 0.7 X 10(6) daltons and is not homologous with the fragment at the other end of the physical map. The structural organization of GPCMV DNA is unique for a herpesvirus DNA, similar in its simplicity to the structure reported for murine cytomegalovirus DNA and quite dissimilar from that of human cytomegalovirus DNA.     

A new selective phage cloning vector, lambda 2001, with sites for XbaI, BamHI, HindIII, EcoRI, SstI and XhoI

An improved bacteriophage lambda cloning vector, lambda 2001, has been constructed. The phage includes a 34-bp polylinker oligonucleotide which introduces cleavage sites for XbaI, SstI, XhoI, EcoRI, HindIII and BamHI, and can accommodate 10-kb to 23-kb fragments. Inserts that destroy the BamHI or XhoI cloning sites may be recovered by excision at flanking sites in the polylinker sequence. Insertion of foreign DNA into lambda 2001 generates phage with a Spi- phenotype. The recombinant phage are able to grow on P2 lysogens but the parental vector phages are not. In the course of this work, the polylinker sequence was also introduced into M13mp8. This produced a new vector, M13mp12, with cloning sites for EcoRI, SmaI, XbaI, SstI, XhoI, BamHI, and HindIII.     

A pSC101-derived plasmid which shows no sequence homology to other commonly used cloning vectors

We have constructed a plasmid cloning vector, pGB2, which is derived from the Escherichia coli plasmid pSC101. The plasmid, which specifies resistance to spectinomycin and streptomycin, contains unique restriction sites for the enzymes HindIII, PstI, SalI, BamHI, SmaI and EcoRI. pGB2 shows no sequence homology, as detected by DNA-DNA hybridization, to several widely used vectors such as pBR322, pUC8 and phage lambda L47.1. Amongst other applications, DNA fragments can be cloned into the plasmid and then radioactive plasmid DNA can be used as a probe to screen recombinant DNA libraries.     

Cloning of the complete human cytomegalovirus genome in cosmids

Purified virion DNA (155 X 10(6) Mr) of human cytomegalovirus (CMV) strain Ad169 was partially cleaved with restriction endonucleases HindIII and EcoRI and cloned in the respective cleavage sites of cosmid pHC79. A complete gene library was established in a set of clones containing the viral DNA in long overlapping segments. Restriction maps for HindIII (29 fragments) and EcoRI (36 fragments) were constructed from the linkage of cosmid-cloned fragments, from double digestions of cloned DNA, and from blot hybridization of labeled cloned viral DNA with restriction fragments of virion DNA and singly or doubly cleaved cosmid clones.     

Cleavage maps for human cytomegalovirus DNA strain AD169 for restriction endonucleases EcoRI, BglII, and HindIII.

We have used cloned EcoRI fragments of the human CMV (HCMV) genome, strain AD169, to prepare restriction endonuclease maps of the DNA. Individual 32P-labeled cloned fragments were hybridized to Southern blots of HCMV DNA cleaved to completion with the restriction endonucleases BglII and HindIII and cleaved partially with EcoRI. By determining which EcoRI fragments hybridized to the same band on a Southern blot, we were able to establish linkage groups. This information coupled with the data derived from digestion of the cloned fragments with the enzymes BglII and HindIII (Tamashiro et al., J. Virol. 42:547-557, 1982) provided the basis for the construction of detailed maps for the enzymes EcoRI, BglII, and HindIII. We also identified the EcoRI fragments derived from the termini of this genome and mapped them with respect to the BglII and HindIII terminal fragments. From our mapping data, we conclude that the genome of HCMV is approximately 240 kilobases in length and is divided into long (198 kilobases) and short (42 kilobases) regions. Both regions consist of a unique sequence bounded by inverted repeats (11 to 12 kilobases for the long region and 2 to 3 kilobases for the short region). Furthermore, the long and short regions can invert relative to each other.     

Organization and stability of endogenous xenotropic murine leukemia virus proviral DNA in mouse genomes.

In a series of blot hybridization experiments, using a xenotropic envelope probe and restriction enzymes known to cut xenotropic proviral DNA a single time (EcoRI) or not at all (HindIII), we have studied the organization and relationship of endogenous xenotropic env-related sequences in various mouse strains. Multiple copies (18 to 28) of xenotropic env-reactive fragments were found in all mouse DNAs after digestion with either HindIII or EcoRI, and the majority of fragments were of sizes compatible with their origin from full-length proviral DNA. Five HindIII and five EcoRI restriction fragments were common to all inbred mouse DNAs tested. In addition, each strain exhibited unique characteristic xenotropic env-reactive bands; these bands were remarkably stable during many years of inbreeding. The cleavage patterns characteristic of each strain were also useful for showing genealogical relatedness among the various inbred mice.     

Physical map of the Agrobacterium rhizogenes strain 8196 virulence plasmid

Virulence of Agrobacterium rhizogenes, agent of hairy root disease, is conferred by large plasmids called Ri (root-inducing) plasmids. We have determined the BamHI fragment map of pRi8196, MW 143 Mda, principally by analysis of recombinant plasmids containing overlapping BamHI partial-digest fragments. Clones containing solitary BamHI inserts of remaining unmapped fragments were used to probe a series of Southern-blotted, pRi8196-derived EcoRI, PstI, HindIII, SalI, or SmaI digests. Continguous hybridized bands represented complements of EcoRI, PstI, HindIII, SalI, or SmaI fragments which bridged the unmapped BamHI fragments. We present, in addition, a detailed map of the core T-DNA region with respect to the restriction endonucleases SalI, EcoRI, HpaI, and HindIII.     

Simple method of cloning eukaryote DNA: production of certain new ribosomal genes of Drosophila

We propose a simple method which allows to receive a collection of clones containing recombinant plasmids. It is based on the ligation of the longer fragment of pBR332 formed by EcoRI and BamH1 with eukaryotic DNA (from Drosophila melanogaster embryo in this case) partially cleaved with EcoRI and BamHI. This approach gave us 10(4) colonies from 1 microgram of Drosophila DNA and 0.1 microgram of the BamHI--EcoRI "vector". About 0.5% of all clones carried the fragments of ribosomal genes with insertions in the 26S gene. Ribosomal genes lacking insertions did not enter the collection due to some peculiarities in their restriction map. The sites of cleavage are mapped in eight recombinant plasmide for HindIII, BamHI and EcoRI. These maps show that some insertions within 26S gene have not been cloned earlier. The mean length of cloned fragments is 11.8 kilobases, the mean number of EcoRI and BamHI restriction sites are 1.2 and 1.0, respectively. The electrophoretical screening of plasmids using cetyl trimethyl ammonium bromide was developed.     

Physical and genetic organization of the plasmid R15

The conjugative IncN plasmid R15 (SmrSurHgr, 62.3 kb) is cleaved by the hexanucleotide-specific endonucleases BglII, HindIII, EcoRI, BamHI, SmaI, SalI, PstI and XhoI into 9, 9, 6, 5, 4, 4, 4 and 2 fragments, respectively. The restriction sites were located on the physical map of the R15 genome. Distribution of the cleavage sites is strongly asymmetric. 28 of 32 sites for BamHI, EcoRI, HindIII, SalI, SmaI and PstI were located close to or within the sequences of transposable elements Tn2353 and Tn2354. According to the results of analysis of R15::Tn1756 deletion derivatives and recombinant plasmids harboring fragments of R15, the genetic determinants for resistance to Sm, Su and Hg were mapped, as well as the regions necessary for EcoRII restriction--modification and for plasmid replication and conjugation. The features of physical and genetic structures of R15 and other IncN plasmids are discussed.     

Physical mapping of strain AD169 human cytomegalovirus DNA

The whole human cytomegalovirus strain AD169 genome was cloned into plasmid pAT153 in the form of 25 HindIII fragments. Double and triple digestions of the recombinant plasmids with restriction endonucleases BamHI, BglII, ClaI, DraI, EcoRI, EcoRV, HindIII, HpaI, KpnI, PaeR7, PstI, SphI and XbaI yielded a detailed restriction map of human cytomegalovirus DNA. Knowing the exact position of numerous restriction sites in the viral DNA molecule, we have been able to examine very closely the heterologous region between the long and the short segments of the human cytomegalovirus genome.     

Improved plasmid vectors for the isolation of translational lac gene fusions

The beta-galactosidase fusion vector pMC1403 has been modified to include the unique cloning sites EcoRI, SmaI, BamHI, SalI, AccI, PstI and HindIII. The new vectors (pNM480, pNM481 and pNM482) allow the fusion of genes to beta-galactosidase in all three translational reading frames, and exhibit an increased sensitivity of promoter detection due to a higher copy number.