Restriction enzyme digests of rapidly renaturing fragments of vaccinia virus DNA.

Vaccinia virus DNA fragments that have been denatured by alkali and then neutralized contain a fraction that rapidly reforms duplex structures. The fraction is enriched by fractionating on hydroxyapatite columns and serves as as substrate for digestion by two restriction endonucleases isolated from Hemophilus parainfluenzae, Hpa I and HPa II. The patterns obtained by gel electrophoresis of the digested fragments show the presence of three major bands after Hpa I digestion and four major bands after Hpa II digestion. The DNA that is isolated from some of these bands quickly reforms duplex regions after alkaline denaturation. The size of the DNA segments in the major bands has been estimated to be in the range of 0.44 X 10(6) to 3.2 X 10(6) daltons. The fragments which rapidly reform duplex chains after denaturation are sensitive to single-strand-specific nucleases. These results are consistent with a model of vaccinia virus DNA which has a covalent link connecting complementary chains.     

DNA analysis of insect iridescent virus 6: evidence for circular permutation and terminal redundancy

DNA analysis of small insect iridovirus 6 was performed. Combined exonuclease-restriction endonuclease digestions revealed that all resulting fragments were degraded without preference for any one DNA fragment. Upon denaturation and reannealing of native linear Chilo iridescent virus DNA (158 × 10⁶ daltons), duplex DNA circles of a smaller size (140 × 10⁶ daltons) with protruding tails were formed.     

Plasmids of the cyanobacterium Synechocystis 6701

Abstract Plasmids were obtained from Synechocystis 6701 using a lysis method that employed a hemicellulase digestion procedure. Eight major bands were observed in the initial preparation. Four of the smaller plasmids were isolated using preparative agarose electrophoresis gels and identified by restriction endonuclease analysis. Chromosomal DNA was screened with 15 restriction enzymes and 6 ( Eco RI, Sst I, Hpa I, Bst EII, Acc I, and Bgl II) were effective. Analysis of DNA fragments from plasmids pSCY 1–4 indicated that each plasmid was unique and that their approximate sizes were 5, 7.5, 13.5 and 15 kb, respectively. Digestion of pSCY 1 and pSCY 4 with Bgl II produced DNA fragments that may be used to construct a conjugation vector for this unicellular cyanobacterium.     

DNA Restriction Fragment Length Polymorphism in Races of the Soybean Cyst Nematode,Heterodera glycines

Restriction endonuclease digests of total DNA from races 3, 4, and 5 of the soybean cyst nematode, Heterodera glycines, have been analyzed on agarose gels. DNA fragment patterns of race 4 were completely different from those patterns obtained for races 3 and 5 by all eight restriction enzymes tested. Differences in long and short restriction DNA fragments generated by the enzyme Msp I or its isoschizomer, Hpa II, were detected between race 3 and 5 digestion profiles. Rapid DNA isolation followed by its digestion with either Msp I or Hpa II enzymes and visualization of repetitive DNA fragments in agarose gels provided a diagnostic assay for the populations of the three races examined in this study.     

Sites in simian virus 40 chromatin which are preferentially cleaved by endonucleases.

Simian virus 40 (SV40) chromatin isolated from infected BSC-1 cell nuclei was incubated with deoxyribonuclease I, staphylococcal nuclease or an endonuclease endogenous to BSC-1 cells under conditions selected to introduce one doublestrand break into the viral DNA. Full-length linear DNA was isolated, and the distribution of sites of initial cleavage by each endonuclease was determined by restriction enzyme mapping. Initial cleavage of SV40 chromatin by deoxyribonuclease I or by endogenous nuclease reduced the recovery of Hind III fragment C by comparison with the other Hind III fragments. Similarly, Hpa I fragment B recovery was reduced by comparison with the other Hpa I fragments. When isolated SV40 DNA rather than SV40 chromatin was the substrate for an initial cut by deoxyribonuclease I or endogenous nuclease, the recovery of all Hind III or Hpa I fragments was approximately that expected for random cleavage. Initial cleavage by staphylococcal nuclease of either SV40 DNA or SV40 chromatin occurred randomly as judged by recovery of Hind III or Hpa I fragments. These results suggest that, in at least a portion of the SV40 chromatin population, a region located in Hind III fragment C and Hpa I fragment B is preferentially cleaved by deoxyribonuclease I or by endogenous nuclease but not by staphylococcal nuclease.Complementary information about this nuclease-sensitive region was provided by the appearance of clusters of new DNA fragments after restriction enzyme digestion of DNA from viral chromatin initially cleaved by endogenous nuclease. From the sizes of new fragments produced by different restriction enzymes, preferential endonucleolytic cleavage of SV40 chromatin has been located between map positions 0.67 and 0.73 on the viral genome.     

Extracellular nucleases of pseudomonas BAL 31. III. Use of the double-strand deoxyriboexonuclease activity as the basis of a convenient method for the mapping of fragments of DNA produced by cleavage with restriction enzymes.

We have previously characterized an extracellular nuclease from Pseudomonas BAL 31 which, in addition to other activities, displays a double-strand exonuclease activity which progressively shortens both strands of linear duplex DNA molecules from both termini. This degradation is accomplished without the introduction of detectable scissions away from the ends of the duplexes. When this nuclease is used to produce a series of progressively shortened samples from a linear duplex DNA, subsequent digestion of these samples with a site-specific restriction endonuclease and analysis of the resulting fragments by gel electrophoresis permits the rapid establishment of the order of the restriction enzyme fragments through the entire genome. This is accomplished by noting from the electropherograms the order in which the various restriction enzyme fragments become noticeably shortened or disappear. Using this method, the five cleavage sites for the endonuclease Hpa I and the single cleavage sites for the nucleases Hpa II and Pst I have been mapped in PM2 bacteriophage DNA. In a more stringent test of the method, 18 of the 24 fragments produced by cleavage of coliphage lambdab2b5c DNA with the Pst I nuclease have been mapped, and five of the six remaining fragments have been assigned to small regions of the genome.     

Arrangement of nucleotide sequences in adeno-associated virus DNA

There are two types of adeno-associated virus virions which contain complementary single-stranded DNA genomes of about 1.4 × 10⁶ daltons. The purified complementary single polynucleotide chains anneal to form duplex linear monomers, circular monomers, and linear dimers, in addition to other less well-defined structures, as identified by sedimentation and electron microscopy. All duplex species are formed by linear single polynucleotide chains of unit length, thus duplex circles and linear dimers are assumed to be held together by relatively short overlapping hydrogen-bonded regions. The initial linear monomers present after annealing the complementary single strands do not form duplex circles or oligomers when re-exposed to annealing conditions, but DNA which sediments as linear monomers after heating linear dimers at a temperature from 7 to 25 deg. C below the T_m of duplex AAV² DNA does re-form oligomers and circles when exposed to annealing conditions. Denaturation and reannealing of any duplex species leads to the formation of all forms, indicating that the over-all single strand composition of all species is equivalent. Disruption of duplex circles by limited exonucleolytic digestion using either 3′ or 5′ exonucleases leads to the conclusion that the overlap region may have either 3′ or 5′ termini and that the overlap region represents less than 6% of the length of the genome. Exonucleolytic digestion of linear monomers to the extent of 50% leaves polynucleotide chains which cannot reanneal after denaturation, thus AAV DNA is not randomly circularly permuted. Duplex linear monomers which do not form circles when exposed to annealing conditions do form duplex circles after 1% exonuclease III digestion. A model consistent with these data is one in which the linear single polynucleotide chains present in AAV virions consist of two or more permutations. All of these chains contain terminal repetitions and their start points occur within a limited region, representing < 6% of the length of the genome. According to this interpretation AAV DNA would exist within the virion as a linear single polynucleotide chain or is cleaved at a few specific sites during extraction.     

Mythylation of human HLA-D/DR genes: derangement in chronic lymphocytic leukemia

HLA-DR antigens are expressed as differentiation markers in certain human leukemias. To investigate whether DNA methylation plays a role in expression of DR genes in leukemia, we analyzed methylation patterns of the DR-alpha and D/DR-beta genes in the DR antigen-positive and -negative B-cell lines, in normal adults and in chronic lymphocytic leukemia (CLL) patients using Southern blot hybridization of DNA digested with Msp I and Hpa II. The DR-alpha and D/DR-beta genes of a DR antigen positive B-cell line, T5-1, were heavily methylated, while those of DR antigen-negative variant, 6.1.6, were hypomethylated. Blood cells collected from four normal adults contained different levels of DR-alpha and D/DR-beta mRNAs, but their relative amounts were about the same among the individuals. By contrast, the relative amounts of these mRNAs in CLL cells varied widely, indicating aberrant expression of one or both of these genes in CLL. The DR-alpha gene in four normal adults and six CLL patients produced only a 3 kb hybridizable band after Msp I digestion. Normal adult DR-alpha genes were resistant to Hpa II digestion, suggesting that all Hpa II sites are methylated. In contrast, digestion of CLL DNA with Hpa II yielded various bands of larger sizes which differed among the CLL patients, suggesting that Hpa II sites are differentially methylated in the CLL DNA. In the case of D/DR-beta genes, normal adult DNA gave Msp I bands which were slightly polymorphic among four individuals tested. In contrast, CLL DNA showed a high degree of restriction fragment length polymorphism (RFLP) on Msp I digestion. We speculate that the high RFLPs in the CLL DNA may result from differential methylation in CpG clusters in the D/DR-beta genes, and that this characteristic may be of use for diagnosis of CLL.     

The genome of Bacillus subtilis phage SPP1: the arrangement of restriction endonuclease generated fragments.

Summary SPP1 DNA was cleaved by the restriction endonucleases, BglI, BglII, EcoRI, KpnI, SmaI, and SalI. The molecular weights of the DNA fragments obtained by single enzyme digestion or by consecutive digestion with two enzymes were determined by electron microscopic measurements of contour length and by gel electrophoresis. The major fragments from the six digests could be ordered to give a consistent restriction map of SPP1. The electropherograms of several digests indicated that certain fragments occurred in less than stoichiometric amounts or were heterogeneous in size. Such bands carried a major part of radioactivity, when SPP1 DNA was terminally labelled with P³² prior to degradation by restriction enzymes. These results, and studies of the effect of exonuclease III treatment on restriction enzyme patterns define the terminal restriction fragments. All data obaained support the conclusion drawn in the preceding paper (Morelli et al., 1978b) that the SPP1 genome is terminally redundant and partially circularly permuted.Part of this work is from the doctoral dissertations to be submitted to Stanford University¹ and the Freie Universität Berlin²     

Mechanism of degradation of duplex DNA by the DNase induced by herpes simplex virus

Reaction intermediates formed during the degradation of linear PM2, T5, and λ DNA by herpes simplex virus (HSV) DNase have been examined by agarose gel electrophoresis. Digestion of T5 DNA by HSV type 2 (HSV-2) DNase in the presence of Mn²⁺ (endonuclease only) gave rise to 6 major and 12 minor fragments. Some of the fragments produced correspond to those observed after cleavage of T5 DNA by the single-strand-specific S1 nuclease, indicating that the HSV DNase rapidly cleaves opposite a nick or gap in a duplex DNA molecule. In contrast, HSV DNase did not produce distinct fragments upon digestion of linear PM2 or λ DNA, which do not contain nicks. In the presence of Mg²⁺, when both endonuclease and exonuclease activities of the HSV DNase occur, most of the same distinct fragments from digestion of T5 DNA were observed. However, these fragments were then further degraded preferentially from the ends, presumably by the action of the exonuclease activity. Unit-length λ DNA, EcoRI restriction fragments of λ DNA, and linear PM2 DNA were also degraded from the ends by HSV DNase in the same manner. Previous studies have suggested that the HSV exonuclease degrades in the 3′ → 5′ direction. If this is correct, and since only 5′-monophosphate nucleosides are produced, then HSV DNase should “activate” DNA for DNA polymerase. However, unlike pancreatic DNase I, neither HSV-1 nor HSV-2 DNase, in the presence of Mg²⁺ or Mn²⁺, activated calf thymus DNA for HSV DNA polymerase. This suggests that HSV DNase degrades both strands of a linear double-stranded DNA molecule from the same end at about the same rate. That is, HSV DNase is apparently capable of degrading DNA strands in the 3′ → 5′ direction as well as in the 5′ → 3′ direction, yielding progressively smaller double-stranded molecules with flush ends. Except with minor differences, HSV-1 and HSV-2 DNases act in a similar manner.     

Analysis of stable and unstable viral forms in SV40-infected human keratinocytes

We analyzed the state of the genomic DNA of the papovavirus SV40 in human keratinocytes as viral-infected cells gradually acquired a transformed phenotype over time. Initially, the vast majority of the viral DNA is maintained either in a full-length supercoiled form or as truncated subgenomic fragments with little evidence of integration. However, analyses of clonal populations revealed great heterogeneity and instability of the viral DNA, and we were able to isolate one clonal subpopulation in which integrated forms of the virus appeared to predominate. Similarly, uncloned populations eventually ceased production of the "free" viral DNA after several years in culture and instead came to display tandemly repeated SV40 copies at a single host integration site. Interestingly, Bg1 II digestion of host DNA generated restriction fragments containing the integrated SV40 DNA, which were of differing sizes in cultures at the 144th vs the 163rd serial passage suggesting modification or rearrangement of sequences at or near the integration site. Host sequences flanking the integrated viral DNA at the 163rd serial passage have been isolated on restriction fragments generated by Eco RI, Bam HI, and Hpa II digestion. These analyses suggest that the integrated virus is linearized near the Bg1 I site and contains a large deletion in the SV40 early region at one of the viral-host junctions.     

Bacillus subtilis bacteriophages SP82, SPO1, and phie: a comparison of DNAs and of peptides synthesized during infection.

The genomes of Bacillus subtilis phages phie, SPO1, and SP82 were compared by DNA-DNA hybridization, analysis of DNA fragments produced by digestion with restriction endonucleases, comparison of the arrays of peptides synthesized during infection, and phage neutralization. DNA-DNA hybridization experiments indicated that about 78% of the SP82 DNA was homologous with SPO1 DNA, whereas 40% of the phie DNA was homologous to either SPO1 or SP82 DNA. Agarose gel electrophoresis was used to compare the molecular weights of DNA fragments produced by cleavage of SP82, SPO1, and phie DNAs with the restriction endonucleases Hae III, Sal I, Hpa II, and Hha I. Digestion of the DNAs with Hae III and Sal I produced only a few fragments, whereas digestion with Hpa II and Hha I yielded 29 to 40 fragments, depending on the DNA and the enzyme. Comparing the Hpa II fragments, 51% of the SP82 fragments had mobilities which matched those of SPO1 fragments, 32% of the SP82 fragments matched the phie fragments, and 34% of the SPO1 fragments matched the phie fragments. Comparing the Hha I digestion products, 62% of the SP82 fragments had mobilities matching the SPO1 fragments, 24% of the SP82 fragments matched the phie fragments, and 22% of the SPO1 fragments matched the phie fragments. Analysis of peptides by electrophoresis on one-dimensional sodium dodecyl sulfate-polyacrylamide slab gels showed that approximately 70 phage-specific peptides were synthesized in the first 24 min of each infection. With mobility and the intervals of synthesis as criteria, 66% of the different SP82 peptides matched the SPO1 peptides, 34% of the SP82 peptides matched the phie peptides, and 37% of the SPO1 peptides matched the phie peptides. Phage neutralization assays using antiserum to SP82 yielded K values of 510 for SP82, 240 for SPO1, and 120 for phie.     

A fraction of the mouse genome that is derived from islands of nonmethylated, CpG-rich DNA

About 1% of the mouse genome is cleaved by Hpa II to give a discrete fraction on gels. The nonmethylated fraction is present in all tested tissues, including sperm, and contains Hpa II sites at about 15 times their frequency in bulk DNA. About 80% of the fraction is composed of sequences that occur once or a few times per genome; the remainder is largely rDNA. Unlike bulk DNA, the fraction is not deficient in CpG, and this may be directly due to the lack of methylation. Genomic mapping of three nonribosomal fragments showed that they are part of islands of DNA within which nonmethylated Hpa II and Hha I sites are highly concentrated. We estimate about 30,000 islands per haploid genome and discuss evidence that many may be associated with genes.     

RNA primers in Simian virus 40 DNA replication. II. Distribution of 5' terminal oligoribonucleotides in nascent DNA.

A cell-free simian virus 40 (SV40) DNA replication system served to study the role of RNA in the initiation of nascent DNA chains of less than 200 nucleotides (Okazaki pieces). RNA-DNA covalent linkages were found to copurify with SV40 replicating DNA. These linkages were identified by transfer of a fraction of the ³²P from the 5′ position of a deoxyribonucleotide to 2′(3′)rNMPs upon either alkaline hydrolysis or RNAase T₂ digestion of SV40 replicating [³²P]DNA. Alkaline hydrolysis also exposed 5′ terminal hydroxyl groups in the nascent DNA which were detected as nucleosides after digestion with P1 nuclease. The RNA-DNA covalent linkages resulted from a population of Okazaki pieces containing uniquely sized oligoribonucleotides covalently attached to their 5′ termini (RNA primers). The density of a portion of the Okazaki pieces in potassium iodide gradients corresponded to a content of 90% DNA and 10% RNA, while the remaining Okazaki pieces appeared to contain only DNA. Incubation of Okazaki pieces with a defined length in the presence of either RNAase T₂ or potassium hydroxide converted about one-third to one-half of them intto a second well defined group of DNA chains of greater electrophoretic mobili y in polyacrylamide gels. The increased mobility corresponded to the removalof at least seven-residues. Since alkaline hydrolysis of similar Okazaki pieces revealed that one-third to one-half of them contained rN-³²P-dN linkages, the oligoribonucleotides must be covalently attached to the 5′ ends of nascent DNA chains. Although the significance of two populations of Okazaki pieces, one with and one without RNA primers, is imperfectly understood, a sizable fraction of nascent DNA chains clearly contained RNA primers.Neither the length of the RNA primer nor the number of RNA primers per DNA chain changed significantly with increasing length of Okazaki pieces. Since the frequency of RNA-DNA junctions found in nascent DNA chains greater than 400 nucleotides was similar to that of Okazaki pieces, the complete excision of RNA primers appears to occur after Okazaki pieces are joined to the 5′ end of growing daughter strands.³²P-label transfer analysis of Okazaki pieces recovered from hybrids with isolated HindII + III restriction fragments of SV40 DNA revealed a uniform distribution of rN-P-dN sequences around the replicating DNA molecule. Therefore, most, if not all, RNA primers serve to initiate Okazaki pieces rather than to initiate DNA replication at the origin of the genome. Moreover, the positions of RNA primers are not determined by a specific set of nucleotide sequences.     

β-Globin gene polymorphism in the Saudi Arab population

Summary DNA mapping with the restriction endonucleases, Hpa I and Mst II, has been used to investigate -globin gene polymorphism in the Saudi Arab population. Using Hpa I digestion, 13.0kb and 7.6kb fragments were found in association with the ^A and ^S genes. The frequency of the polymorphic forms in two regions investigated vary significantly. In Al-Hafouf and the surrounding villages, situated in the Eastern Province of Saudi Arabia, the frequencies of association of the ^S gene with the Hpa I 7.6kb, 7.0kb, and 13.0kb fragments were 0.866, 0.043, and 0.071, respectively. The frequency of association of ^A with the 7.6kb and 13.0kb fragments resulting from the Hpa I digestion were 0.875 and 0.125. In Khaiber, Tehamat-Aseer, and surrounding villages, in the Western Province, the frequency of association of ^S with 7.6kb, 7.0kb, and 13.0kb fragments were 0.836, 0.027, and 0.0136, respectively, while that of ^S was 0.250 and 0.750 with 7.0kb and 13.0kb Hpa I fragments, respectively. Using Mst II digestion, ^A was found to be linked to a 1.15kb fragment, while ^s was linked to a 1.35kb fragment. The normal (Hb AA), heterozygotes (Hb AS), and homozygotes (Hb SS) gave 1.15, 1.15/1.35, and 1.35kb fragments, respectively. The results of this study show extensive polymorphism at the Hpa I restriction site of the ^A and ^S globin genes with the different polymorphic forms existing at a variable frequency in different regions of Saudi Arabia.     

Male-Specific Coliphages as Indicators of Thermal Inactivation of Pathogens in Biosolids

Male-specific (F⁺) coliphages have been proposed as a candidate indicator of fecal contamination and of virus reduction in waste treatment. However, in this and earlier work with a laboratory thermophilic anaerobic digester, a heat-resistant fraction of F⁺ coliphage populations indigenous to municipal wastewater and sludge was evident. We therefore isolated coliphages from municipal wastewater sludge and from biosolid samples after thermophilic anaerobic digestion to evaluate the susceptibility of specific groups to thermal inactivation. Similar numbers of F⁺ DNA and F⁺ RNA coliphages were found in untreated sludge, but the majority of isolates in digested biosolids were group I F⁺ RNA phages. Separate experiments on individual isolates at 53°C confirmed the apparent heat resistance of group I F⁺ RNA coliphages as well as the susceptibility of group III F⁺ RNA coliphages. Although few F⁺ DNA coliphages were recovered from the treated biosolid samples, thermal inactivation experiments indicated heat resistance similar to that of group I F⁺ RNA phages. Hence, F⁺ DNA coliphage reductions during thermophilic anaerobic digestion are probably related to mechanisms other than thermal inactivation. Further studies should focus on the group III F⁺ RNA coliphages as potential indicators of reductions of heat-resistant pathogens in thermal processes for sludge treatment.     

Methylation Pattern of Radish (Raphanus sativus) Nuclear Ribosomal RNA Genes

The methylation pattern of radish Raphanus sativus nuclear rDNA has been investigated using the Hpa II, Msp I, and Hha I restriction enzymes. The presence of numerous target sites for these enzymes has been shown using cloned rDNA fragments. A large fraction of the numerous rDNA units are heavily methylated, being completely resistant to Hpa II and Hpa I. However, specific sites are constantly available in another fraction of the units and are therefore unmethylated. The use of different probes allowed us to demonstrate that hypomethylated sites are present in different regions. Major hypomethylated Hha I sites have been mapped in the 5′ portion of 25S rRNA coding sequence. Among the hypomethylated fraction, different methylation patterns coexist. It has been possible to demonstrate that methylation patterns are specific for particular units. The Hha I pattern of rDNA in tissues of different developmental stages was analyzed. Evidence for possible tissue specific differences in the methylation pattern is reported.     

A restriction endonuclease cleavage map of mitochondrial DNA from transformed hamster cells.

Mitochondrial DNA from cultured C13/B4 hamster cells was cleaved by the restriction endonucleases Hpa II, Hind III, Eco RI and Bam HI into 7, 5, 3 and 2 unique fragments, respectively. The summed molecular weights of fragments obtained from electrophoretic mobilities in agarose-ethidium bromide gels (with Hpa I-cleaved T7 DNA as standard) and electron microscopic analysis of fragment classes isolated from gels (with SV40 DNA as standard) were in good agreement with the size of 10.37 +/- 0.22 x 10(6) daltons (15,700 +/- 330 nucleotide pairs) determined for the intact circular mitochondrial genome. Cyclization of all Hind III, Eco RI and Bam HI fragments was observed. A cleavage map containing the 17 restriction sites (+/- 1% s.d.) was constructed by electrophoretic analysis of 32P-labeled single- and double-enzyme digestion products and reciprocal redigestion of isolated fragments. The 7 Hpa II sites were located in one half of the genome. The total distribution of the 17 cleavages around the genome was relatively uniform. The position of the D-loop was determined from its location and expansion on 3 overlapping restriction fragments.     

Isolation of a Repeated DNA Probe Showing Polymorphism among Meloidogyne incognita Populations

Several Meloidogyne incognita geographic populations were characterized by analysis of the restriction fragment length polymorphisms (RFLP) obtained after digestion of their total DNA and hybridization with a [³²P]-labeled probe. The probe consisted of a 1.7-kb-repeated DNA sequence, isolated from a M. incognita genomic library, that hybridized to multiple BamH I fragments in the genome of each isolate. The patterns showed sufficient polymorphism to enable the accurate differentiation of all the populations tested.