Restriction maps and restriction fragment length polymorphisms of the human 21-hydroxylase genes

Restriction maps were constructed for the two human 21-hydroxylase genes (21-OHA and 21-OHB) by using DNA from subjects homozygous for a deletion of each gene. Comparing the patterns of these two genes, a KpnI restriction site occurred in the 21-OHA gene in place of a TaqI site in the 21-OHB gene about 1-kb from the 5' end of the gene, and an extra EcoRI site was located 500 bp 5' to the common EcoRI site. The DNA of fourteen unrelated normal subjects was digested with nine restriction endonucleases (AccI, BamHI, BgIII, EcoRI, HindIII, KpnI, MspI, SacI and TaqI). Restriction fragment length polymorphisms were found with EcoRI, HindIII and AccI that resulted from polymorphic endonuclease sites outside the genes.     

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.     

Physical map of the Rhodobacter sphaeroides bacteriophage phi RsG1 genome and location of the prophage on the host chromosome.

We constructed a physical map of the 50-kilobase-pair (kb) DNA of the temperate Rhodobacter sphaeroides bacteriophage phi RsG1, with the relative positions of the cleavage sites for the nine restriction endonucleases KpnI, HindIII, XbaI, ClaI, BclI, EcoRV, EcoRI, BglII, and BamHI indicated. Using biotinylated phi RsG1 DNA as a probe in hybridization studies, we detected homologies with virus DNA and fragments of restriction endonuclease-digested host chromosomal DNA but not with plasmid DNA. This indicates that the prophage is integrated into the host chromosome. In addition, the use of specific probes such as the 10.4-kb BglII A fragment and the 2.65-kb BamHI H fragment allowed the determination of the position of phage attachment site (attP).     

Construction of plasmid vectors that facilitate subcloning and recovery of yeast and Escherichia coli DNA fragments

We have constructed a plasmid vector (pNF2) which is a derivative of the multicopy yeast cloning vehicle YEp24. This derivative contains a single BamHI site flanked immediately on each side by SalI sites. The latter site was selected because it appears to be infrequent in yeast nuclear DNA. Thus, DNA fragments produced by partial digestion with enzymes (such as Sau3A) that cut at frequent intervals and leave single-stranded ends that have sequence homology with BamHI sites, can be conveniently subcloned into this site. Such fragments can then be excised intact by digestion with SalI enzyme. Plasmid pNF2 also contains the kanamycin-resistance (kanR) gene derived from Tn903 and confers resistance in yeast to the antibiotic G418. pNF2 was converted into an integrating vector (pNF3) by deleting a 2.2-kb EcoRI fragment containing a sequence that determines autonomous replication in yeast. Further deletion of a HindIII fragment containing the yeast URA3 gene converts the plasmid into one containing only pBR322 sequences plus the kanR gene (pNF4).     

DNA sequence variation and phylogenetic relationships among strains of Pseudomonas syringae pv. syringae inferred from restriction site maps and restriction fragment length polymorphism.

We evaluated the restriction fragment length polymorphism of genomic DNA among 53 strains of the phytopathogenic bacterium Pseudomonas syringae pv. syringae. Twenty-nine strains were isolated from beans, and the rest were isolated from 11 other hosts. Southern blots of DNA digested with EcoRI or HindIII were hybridized to two random probes from a cosmid library of P. syringae pv. syringae and a hrp (hypersensitive reaction and pathogenicity) cluster cloned from P. syringae pv. syringae. The size of hybridizing fragments was determined, and a similarity matrix was constructed by comparing strains on a pairwise basis for the presence or absence of fragments. The proportion of shared fragments was then used to estimate sequence divergence. Dendrograms were produced by using the unweighted pair group method with averages and the neighbor-joining method. For the hrp region, BamHI, EcoRI, EcoRV, and HindIII restriction sites were mapped for six representative bean strains and used to construct EcoRI and HindIII restriction maps for all 30 strains pathogenic on beans. Restriction mapping revealed the presence of a 3-kb insertion in nine bean strains and a probable second insertion or deletion event on the left-hand side of the hrp cluster that biased estimates of nucleotide sequence divergence from fragment comparisons. This demonstrated that the determination of phylogenetic relationships among bacteria by using restriction fragment length polymorphism data requires mapping restriction sites to remove the effect of insertion or deletion events on the analysis.(ABSTRACT TRUNCATED AT 250 WORDS)     

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

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 beta-lactamase production. By means of in vitro recombinant DNA manipulation of plasmids pML31 and pSC138, we have shown that approximately 1.9 X 10(6) daltons of the 6.0 X 10(6) 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.     

Physical map of the origin of defective DNA in herpes simplex virus type 1 DNA.

The origin of defective DNA (dDNA) of the Patton strain of herpes simplex virus type 1 (HSV-1) was physically mapped with BamHI in the parental DNA. The dDNA obtained from virus passaged at high multiplicities of infection was resistant to cleavage with HindIII, whereas digestion with EcoRI yielded a cluster of fragments 5.4 to 5.7 megadaltons (Mdal) in size. Cleavage with BamHI gave a cluster of fragments 2.6 to 3.2 Mdal in size, plus two homogeneous, comigrating 1-Mdal fragments. One of the latter fragments contained the single EcoRI site approximately 65 base pairs from one end. Hybridization of in vitro labeled dDNA probe to EcoRI, HindIII, BamHI, and Hpa I digests of nondefective HSV-1 DNA demonstrated that, in addition to the S-region terminal repeat, only one end of the S region was involved in the generation of this class of dDNA. Thus, the dDNA probe did not hybridize to either the S region 3.0-Mdal HindIIIN fragment or a 3.0-Mdal BamHI fragment of the adjacent 8.7-Mdal HindIIIG fragment, but did hybridize to four BamHI fragments of HindIII G (approximately 5.7 Mdal). The cluster of 2.6- to 3.2-Mdal fragments obtained with BamHI digestion of dDNA appears to represent a novel junction between the termination of dDNA adjacent to the 3.0-Mdal BamHI fragment in HindIII G and the 2.0- to 2.3-Mdal BamHI fragment terminal in HSV-1 DNA.     

Restriction endonuclease mapping of the proviral DNA of the exogenous RIII murine mammary tumor virus

Cellular DNA containing integrated murine mammary tumor virus (MuMTV) was isolated from FeI/C6 feline kidney cells and CCL64 mink lung cells infected with milkborne RIII MuMTV. By using restriction enzyme HpaI, intact RIII MuMTV provirus (length, 8.7 kilobases [kb]) was excised from the cellular DNA. Subsequent restriction endonuclease analysis of this HpaI fragment with KpnI, HindIII, EcoRI, BamHI, BglII, PstI, SstI, SalI, and XhoI enabled us to construct a map of the RIII virus genome. A comparison of this map with the maps of the GR and C3H MuMTV's revealed that there are greater sequence differences between the RIII virus and the GR and C3H MuMTV proviruses than there are between the GR and C3H proviruses. The following are features of the restriction map unique to the RIII provirus: the presence of three BamHI and two EcoRI cleavage sites, a HpaI cleavage site in the terminal 3'-5' repeat unit of the provirus, and the absence of an XhoI cleavage site. Another distinguishing feature of the RIII provirus is that the sizes of some of the restriction fragments produced by cleavage of the RIII provirus with PstI are different from the sizes of the fragments obtained by PstI cleavage of the GR and C3H proviruses. Like the GR proviral DNA, the RIII proviral DNA has three SstI (SacI) cleavage sites, whereas the C3H provirus has only two SstI sites. HpaI digestion of MuMTV-infected mink lung cell DNA revealed only one class of provirus (an 8.7-kb fragment); however, we observed several minor classes of RIII proviral DNA in addition to the major class of provirus DNA in infected cat kidney cells. PstI digestion of the HpaI 8.7-kb fragments from both feline and mink cells generated a 3.7-kb DNA fragment identical in size to a PstI-generated fragment that has been found in GR and C3H milkborne virus-infected cells. Although a fragment similar in size to the milkborne 3.7-kb PstI fragment has been found as an endogenous component in many C3H and GR mouse tissues, we did not observe such an endogenous fragment in the RIII mouse strain. Therefore, the 3.7-kb fragment may be useful as a marker for the milkborne RIII MuMTV provirus in RIII mice.     

Cloning of a Porphyromonas (Bacteroides) gingivalis protease gene and characterization of its product

A clone expressing a Porphyromonas gingivalis protease from the recombinant plasmid (pYS307) has been identified in a genomic library of P. gingivalis W83. The cloned gene was localized to a 2.4-kb DNA fragment between BamHI and HindIII sites. When a 3.2-kb HindIII fragment of pYS307 was used as a probe in Southern hybridization, HindIII-digested chromosomal DNA of P. gingivalis W83, as well as those of W50 and W12, showed a single 3.2-kb hybridizing band, while that of P. gingivalis 33277 showed a 5.0-kb band. Colonies of E. coli containing pYS307 showed pronounced proteolytic zones on skim milk agar plates only when incubated in an oxygen-free environment. BSA substrate zymography of whole cell extract of E. coli containing pYS307 revealed a protease of approx. 80 kDa which was active under reducing conditions. These results suggest that the cloned protease is thiol-dependent. Antiserum to P. gingivalis W50 reacted with a single band of 80 kDa when a cell lysate sample of an E. coli JM83 containing pYS307 was prepared for electrophoresis in the absence of beta-mercaptoethanol. When samples were solubilized in the presence of beta-mercaptoethanol prior to electrophoresis, the antiserum reacted with the bands of 50 and 38 kDa, but there was no reaction observed at 80 kDa. The activity of the cloned protease was inhibited by TLCK, TPCK, EDTA, PMSF, iodoacetic acid and ZnCl2.     

Physical maps of bovine papillomavirus type 1 and type 2 genomes.

Physical maps of bovine papillomavirus type 1 and type 2 (BPV-1 and BPV-2) DNA were constructed from analysis of the electrophoretic mobilities of restriction endonuclease cleavage fragments from dual digests. BPV-1 DNA was sensitive to Hind III, HindIII, EcoRI, HpaI, AND BamHI, with all but HindII yielding single scissions. BPV-2 DNA was resistant to EcoRI, and HindIII had one cleavage site whereas HpaI, BamHI, and HindII yielded multiple fragments. Of four BPV-1 isolates examined, DNA from one isolate was resistant to HindIII, and another DNA isolate was resistant to BamHI. The three BPV-2 isolates examined were uniformly sensitive to the restriction endonucleases employed.     

Polymorphic class II sequences linked to the rat major histocompatibility complex (RT1) homologous to human DR and DQ sequences

Until recently, the analysis of Class II genes linked to the rat major histocompatibility complex, RT1, has been confined to serologic and electrophoretic analysis of their gene products. To obtain a more definitive estimate of the number and relative polymorphism of RT1 Class II sequences, we performed Southern blot analysis of rat genomic DNA employing human cDNA probes specific for Class II heavy and light chain genes. Southern blots of EcoRI and BamHI digests of genomic DNA from ten inbred strains, expressing eight RT1 haplotypes, were hybridized with the human DQ beta or DR beta cDNA that are homologous to Class II light chain sequences. Four to eight bands were observed to hybridize with the light chain cDNA: band sizes ranged from 2.5 to 28 kb. Restriction fragment patterns were polymorphic; the only identical patterns observed were those associated with RT1 haplotypes with identical RT1.B regions. The number and size of bands hybridizing with DQ beta and DR beta suggested a minimum of four light chain sequences in each haplotype. Southern blots of BamHI and EcoRI digests of genomic DNA from the same strains were hybridized with a DR alpha cDNA that is homologous to Class II heavy chain sequences. All RT1 haplotypes expressed either a 10.0-kb or 13.0-kb band when digested with BamHI, and either a 17-kb or 3.7-kb band when digested with EcoRI. Considerably less polymorphism was detected with the DR alpha probe; this observation is consistent with previously reported limited protein polymorphism of the rat equivalent of the I-E alpha subunit. The size and number of bands hybridizing with the DR alpha probe suggests a minimum of two heavy chain sequences. These observations suggest that the RT1 complex includes more Class II sequences than have been observed in serologic and electrophoretic analyses of Class II gene products. Furthermore, the level of polymorphism of RT1 Class II sequences appears to be comparable with mouse and human Class II sequences.     

Membrane cofactor protein of the complement system. A HindIII restriction fragment length polymorphism that correlates with the expression polymorphism.

An RFLP was found in the DNA of 25 unrelated persons, two families, and five cell lines that correlated with their membrane cofactor protein phenotype. If restricted with HindIII, DNA derived from upper band predominant protein (U) phenotypes had a band at 2 kb, whereas DNA of lower band predominant (L) phenotypes had a 4-kb band. The equal band protein phenotype, in which equal quantities of the two species are expressed, had bands at both 4 and 2 kb. The polymorphic HindIII site was localized to an intron within the membrane cofactor protein gene between exon 1 (codes for 5'UT/signal peptide) and exon 2 (codes for the first short consensus repeat). Using the polymerase chain reaction (PCR), sequences around this site were amplified and a single band of 260 bp was produced. In the U phenotype, the PCR product was restricted with HindIII into 200- and 60-bp fragments. In the L phenotype, there was no change in the size of 260 bp upon restriction with HindIII. For the equal band protein phenotype, the PCR product was partially cleaved. The 260-bp PCR product was subcloned and sequenced. DNA from the U phenotype demonstrated an intact HindIII site (AAGCTT), whereas in the DNA of the L phenotype, this site was altered because a "G" was substituted for a "C" (AAGGTT).     

Restriction analysis of DNA from phage SM of Pseudomonas aeruginosa

The DNA of temperate phage SM P. aeruginosa has one PvuII site, two BamHI sites, three HindIII sites and five EcoRI sites. Using these restrictases the physical map of the phage genome has been constructed. The DNA of phage SM has in their structure cohesive ends similar to cos-sites of phage lambda DNA. EcoRI-fragments with cohesive ends have molecular masses 2.9 and 4.9 MDa.     

Cloning of the cellulase gene from Ruminococcus albus and its expression in Escherichia coli

The gene for cellulase from Ruminococcus albus F-40 was cloned in Escherichia coli HB101 with pBR322. A 3.4-kilobase-pair HindIII fragment encoding cellulase hybridized with the chromosomal DNA of R. albus. The Ouchterlony double-fusion test gave a single precipitation line between the cloned enzyme and the cellulase from R. albus. The size of the cloned fragment was reduced by using HindIII and EcoRI. The resulting active fragment had a size of 1.9 kilobase pairs; and the restriction sites EcoRI, BamHI, PvuII, EcoRI, PvuII, and HindIII, in that order, were ligated into pUC19 at the EcoRI and HindIII sites (pURA1). Cellulase production by E. coli JM103(pURA1) in Luria-Bertani broth was remarkably enhanced, up to approximately 80 times, by controlling the pH at 6.5 and by reducing the concentration of NaCl in the broth to 80 mM.     

Cloning of the cellulase gene from Ruminococcus albus and its expression in Escherichia coli.

The gene for cellulase from Ruminococcus albus F-40 was cloned in Escherichia coli HB101 with pBR322. A 3.4-kilobase-pair HindIII fragment encoding cellulase hybridized with the chromosomal DNA of R. albus. The Ouchterlony double-fusion test gave a single precipitation line between the cloned enzyme and the cellulase from R. albus. The size of the cloned fragment was reduced by using HindIII and EcoRI. The resulting active fragment had a size of 1.9 kilobase pairs; and the restriction sites EcoRI, BamHI, PvuII, EcoRI, PvuII, and HindIII, in that order, were ligated into pUC19 at the EcoRI and HindIII sites (pURA1). Cellulase production by E. coli JM103(pURA1) in Luria-Bertani broth was remarkably enhanced, up to approximately 80 times, by controlling the pH at 6.5 and by reducing the concentration of NaCl in the broth to 80 mM.     

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.     

Polymorphic restriction sites of type II collagen gene: their location and frequencies in the Finnish population

Restriction fragment length polymorphism (RFLP) of the cartilage-specific type II collagen gene has been studied in the Finnish population. Two high-frequency alleles, also reported in other populations, were detected. The HindIII allele had a frequency of 0.33, and that detected with PvuII a frequency of 0.46. Both of these frequencies resembled the ones reported for other populations. Also one BamHI allele, not earlier reported, was found at a low frequency. Two other previously reported polymorphisms for BamHI and EcoRI were not detected in the Finnish population. The RFLPs showed a fair agreement with the Hardy-Weinberg equilibrium. A linkage disequilibrium was found between PvuII and HindIII markers. The alpha 1(II) collagen gene seems to be more conserved in populations of various origins than the alpha 2(I) collagen gene. These polymorphic collagen markers would be useful in linkage studies of various inherited cartilage disorders.     

Accessibility of DNA-epoxycellulose to sequence-specific DNA-binding proteins.

Phage lambda DNA was covalently coupled to epoxy-activated cellulose to form a stable DNA-cellulose matrix for affinity chromatography of sequence-specific DNA-binding proteins. The accessibility of three specific six-base sequences, GGATCC (BamHI), GAATTC (EcoRI) and AAGCTT (HindIII) was studied quantitatively and qualitatively by restriction analysis followed by labelling of their recessed ends. All sites are randomly accessible. The site accessibility is variable, BamHI greater than HindIII greater than EcoRI, and within the range 20-100% depending on base composition and internal structure of the sequence. DNA-epoxycellulose, because of its high efficiency of coupling, capacity, stability and accessibility, can be of great help in the isolation and characterization of sequence-specific DNA-binding proteins.     

Restriction fragment length polymorphism in the 3′ flanking region of the rabbit β1-globin gene

By Southern blot analysis, a restriction fragment length polymorphism in the 3' flanking region of the rabbit beta 1-globin gene was detected. Two alleles, characterized by 9.7- and 12.4-kb BamHI fragments and by 15.3- and 18.0-kb HindIII fragments, have been detected in a small population of White New Zealand rabbits. The long allele is the most frequent (about 70%). The simultaneous changes in the restriction patterns of the two endonucleases and the constant distance between BamHI and HindIII sites in short and long fragments suggest the possibility that the two alleles arise from a rearrangement phenomenon involving a DNA segment 2.7 kb long. In addition, the presence of the two alleles in individuals genetically unrelated to the White New Zealand breed suggests that this polymorphism is widespread.