Mapping of additional restriction enzyme cleavage sites on bacteriophage MB78 genome

A physical map of bacteriophage MB78 DNA indicating the cleavage sites for the enzymeBglII,ClaI,EcoRI,PvuII,SalI andSmaI comprising of a total of 34 cleavage sites have been constructed earlier. The cleavage sites for a few more restriction endonucleases likeApaI,AvaI,BglI,HindIII,KpnI andXhoI have now been mapped. A total of 72 cleavage sites on MB78 DNA are known by now. Relative positions ofEcoRI I and J fragments which could not be decided earlier has now been determined.     

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.     

A restriction map of the bacteriophage T4 genome

Summary We report a detailed restriction map of the bacteriophage T4 genome and the alignment of this map with the genetic map. The sites cut by the enzymes BglII, XhoI, KpnI, SalI, PstI, EcoRI and HindIII have been localized. Several novel approaches including two-dimensional (double restriction) electrophoretic separations were used.     

Physical mapping of bacteriophage T4

Summary The 134 positions of the cleavage sites of the restriction endonucleases XbaI, HaeII and EcoRI were determined for a cytosine-containing DNA of bacteriophage T4. This physical map was aligned with the genetic map. The T4 early regions were further identified by hybridization of RNA synthesized in vitro to the restriction fragments and two promoter regions were localized by filter binding tests and R-loop analysis.     

Mapping of restriction sites in the attachment site region of bacteriophage lambda

Summary A fine structure map of theEcoRI fragment containing the lambda attachment-site region has been constructed. 38 different restriction endonucleases have been employed and 170 sites located in this fragment. In addition, sites in adjacent regions have been determined for several enzymes. Complete cleavage maps of the entire lambda genome have been obtained for endonucleasesBglII,BluI,KpnI,SacI,SacII,SalI andXbaI. The strategy employed for mapping included comparison of deletion and substitution mutants, analysis of mixed digests, and detailed analysis of subfragments.     

Physical mapping of the BglI, BglII, PstI and EcoRI restriction fragments of staphylococcal phage phi 11 DNA

Summary A cleavage map of the generalized transducing staphylococcal phage 11 DNA has been constructed by reciprocal double digestion. All three BglI, the six BglII, the three PstI, and 11 out of 15 EcoRI sites have been mapped. The map is circular, with a total length of 42 kb, and has been divided into 100 map units. The phage DNA is cyclically permuted and has a terminal redundancy of about 11 kb. The preferential starting point and direction for packaging DNA lies at map unit 79 and proceeds towards higher map units.     

Unmethylated regions in the intergenic spacer of maize and teosinte ribosomal RNA genes

The restriction endonucleases Hpa II and Msp I were used to examine cytosine methylation in the ribosomal RNA genes (rDNA) of inbred lines of maize and species of teosinte. In all of the rDNAs examined, Msp I (not sensitive to mCpG) digestion yielded a distribution of lower molecular weight fragments indicative of multiple recognition sites. The majority of the rDNA arrays in an individual were inaccessible to Hpa II (sensitive to mCpG) cleavage, but a significant fraction (10–25%) was cleaved at least once by Hpa II into repeat unit length fragments (9.1 kbp). In some maize inbred lines, one or two additional fragment populations (less than 9.1 kbp in length) were also produced by Hpa II digestion. All of the unmethylated Hpa II sites mapped to the intergenic spacer (IGS), and the major unmethylated site was located approximately 800 bp 5 to the start of the 18S RNA coding sequence. An Eco RI polymorphism, present in the 26S gene of certain inbred lines and hybrids, was utilized to investigate the organization of unmethylated repeat units in the rDNA array. In double digest experiments with Hpa II/Eco RI, the fragments from repeat units with two Eco RI sites were sensitive to Hpa II digestion, whereas, the fragments from repeat units with a single Eco RI site were almost completely resistant to Hpa II digestion. Similar digestion patterns were also observed in Eco RII (sensitive to mCNG)/Eco RI digests. These results suggest that unmethylated and Eco RI polymorphic sites occur in the same repeat units.     

A restriction endonuclease map of Streptomyces phage VWB

Summary A physical map of the actinophage VWB has been constructed using the restriction endonucleases BglII, ClaI, EcoRI, EcoRV, HindIII, KpnI and SphI. Phage VWB, genome size 47.3 kb, propagates on Streptomyces venezuelae, and it can also lysogenise this species. The three BglII-generated fragments of VWB DNA were cloned in pBR322, and subsequently mapped. In this manner the restriction map of the VWB phage genome was constructed.Abbreviations dam DNA adenine methylase activity - kb kilobase pairs - :: novel joint     

Restriction mapping of DNA of temperate Rhizobium meliloti phage 16-3: comparison of genetic and physical maps indicates a long, genetically silent chromosomal arm.

Summary The complete restriction map of DNA (61.57 Kb) of temperate Rhizobium meliloti phage 16-3 has been constructed for enzymes BglII, HindIII, HpaI, KpnI, and a partial map for EcoRI. The strategy employed for mapping included the analysis of double, triple, and partial digests; comparison of wild type and deletion mutants; and detailed analysis of subfragments, exploiting the presence of cohesive ends of the phage. Comparison of the genetic and physical maps indicates that one arm of the chromosome is genetically silent and/or contains nonessential genes.     

Physical mapping of plasmid pDB101: A potential vector plasmid for molecular cloning in streptococci

A physical map of the streptococcal macrolides, lincomycin, and streptogramin B (MLS) resistance plasmid pDB101 was constructed using six different restriction endonucleases. Ten recognition sites were found for HindIII, seven for HindII, eight for HaeII, and one each for EcoRI, HpaII, and KpnI. The localization of the restriction cleavage sites was determined by double and triple digestions of the plasmid DNA or sequential digestions of partial cleavage products and isolated restriction fragments, and all sites were aligned with a single EcoRI reference site. Plasmid pDB101 meets all requirements essential for a potential molecular cloning vehicle in streptococci; i.e., single restriction sites, a MLS selection marker, and a multiple plasmid copy number. The vector plasmid described here makes it possible to clone selectively any fragment of DNA cleaved with EcoRI, HpaII, or KpnI, or since the sites are close to each other in map position, any combination of two of these restriction enzymes.     

Polymorphism of mitochondrial DNA in pigs based on restriction endonuclease cleavage patterns

Restriction endonuclease cleavage patterns of mitochondrial DNA (mtDNA) of pigs and Japanese wild boars were analyzed using 17 enzymes which recognize six nucleotides. The map of cleavage sites was made by double-digestion methods. Polymophism of mtDNA was detected in the digestion by BglII, EcoRV, ScaI, and StuI. The restriction cleavage patterns were identical among the breeds of Landrace, Hampshire, Duroc I, and Large White I (A type). The patterns of Large White II were the same as those of Japanese wild boars (B type). A difference between the A type and the B type of mtDNA was found in the case of three restriction enzymes, BglII, ScaI, and StuI, and the nucleotide alterations between them were estimated as more than six. On the other hand, a difference between mtDNA from almost all pigs and mtDNA from Duroc II was detected using EcoRV. We suggest that the difference of mtDNA between the A type and the B type of mtDNA could result from the different origin of boars, that is, whether they were of European or Asian origin.     

Restriction cleavage maps of coliphages 186 and P2

Summary The restriction enzymes BamHI, BglII, EcoRI, HindIII, PstI, XbaI and XhoI have been used to cleave DNA isolated from the related coliphages P2 and 186 for analysis on 1% agarose gels. Three approaches were used to map the sites of cleavage: a) analysis dependent upon the existence of cohesive termini and availability of viable P2-186 hybrids; b) analysis of double digests and redigests of isolated fragments with a second enzyme and c) analysis of partial digests by transfer to nitrocellulose and hybridization with a single fragment. This last approach and the results obtained from it are detailed in a separate paper (Saint and Egan, 1979). The number of sites of each enzyme are as follows: a) 186, BamHI-7, BglII-1, EcoRI-3, HindIII-2, PstI-22, XbaI-0 and XhoI-1; b) P2, BamHI-3, BglII-2 EcoRI-3, HindIII-0, PstI-3, XbaI-1 and XhoI-0. All of these sites have been mapped with the exception of PstI for 186, where only the five sites in the right 35% (the control region) have been mapped.     

Construction and properties of recombinant plasmids containing the rII genes of bacteriophage T4.

Summary The EcoRI digestion products of phage T4 DNA have been examined using a phage DNA transformation assay. A 2.6x10⁶ Dalton fragment was found to contain the rII genes. This fragment was purified and then treated with HindIII endonuclease. The cleavage products were ligated to the vector plasmid pBR313 and viable recombinant plasmids recovered. A genetic assay was employed to demonstrate that the recombinants contained T4 DNA and to localize on the phage genetic map the EcoRI and HindIII sites cleaved during the construction of the plasmids. Preliminary characterization suggests that a fragment covering the beginning of the rIIA gene possibly contains a promotor which is active in uninfected cells.Abbreviations used Ap ampicillin - Tc tetracycline - Mdal 10⁶ Daltons - bp base pairs     

Molecular cloning in streptococci: Physical mapping of the vehicle plasmid pSM10 and demonstration of intergroup DNA transfer

Summary The streptococcal resistance plasmid pSM10 (8.3 kb), a deletion derivative of pSM10419 (22.9 kb) determining constitutive erythromycin and lincomycin resistance, was physically mapped with the restriction endonucleases AvaI, AvaII, EcoRI, HpaI, KpnI, PvuII (one site each), HindIII, HaeII (three sites each), HincII (four sites), and HhaI (five sites). Using the cryptic plasmid pVA318 as cloning vehicle, the largest HindIII fragment of pSM10 (3.3 kb) was shown to contain the erythromycin/lincomycin resistance gene(s) of the plasmid. The AvaII site of pSM10 proved to be suitable as a site for cloning AvaII-generated chromosomal DNA fragments from a group C streptococcal strain in the Challis strain of Streptococcus sanguis (group) H. A detailed physical map of the chimeric plasmid pSM10221 (12.8 kb), a fusion product of pSM10 and the staphylococcal chloramphenicol resistance plasmid pC221 (4.5 kb), is also presented. The plasmid chimera has properties making it potentially useful in development of a doubly selective streptococcal cloning vehicle by searching for insertional inactivation.     

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.     

A restriction endonuclease cleavage map of bacteriophage P2

Summary A restriction endonuclease cleavage map of phage P2 was constructed. The enzymes used and, within parenthesis, the number of their cleavage sites on the P2 lg cc DNA molecule were: AvaI(3), BalI(1), BamI(3), BglII(3), HaeIII (more than 40; only three were mapped), HindIII(0), HpaI(10), KpnI(3), PstI(3), SalI(2) and SmaI(1). The EcoRI cleavage sites (3), as determined earlier, were used as reference points for this study. The DNAs of a variety of P2 mutants carrying chromosomal aberrations (del1, del2, del3, del6, vir22, vir37(2), vir79 and vir94) were also similarly examined.     

Mitochondrial DNA polymorphism in native Philippine cattle based on restriction endonuclease cleavage patterns

An analysis of patterns of cleavage of mtDNA by restriction endonucleases was performed for nine individuals from the Philippine population of native cattle. MtDNA polymorphisms were detected in the restriction patterns generated by the following six enzymes,BamHI,BglII,EcoRV,HindIII,PstI, andScaI. The restriction patterns showing polymorphisms were distributed nonrandomly among the nine individuals examined from the Philippine population of native cattle, indicating the existence of two separate types of mtDNA. These two types of mtDNA are very different from each other, at the level of subspecies. Since the native Philippine cattle are considered to represent an admixture of European and Indian cattle, the two types of mtDNA must be derived from the mtDNAs of both varieties. The polymorphic sites in mtDNA have been located on a restriction map, and the nucleotide substitutions at some of the sites have also been estimated.     

Localization of the dihydrofolate reductase gene on the physical map of bacteriophage T5

Summary Large quantities of dihydrofolate reductase are synthesized in bacteriophage T5 infected E. coli cells. Some evidence that this enzyme is the product of a viral gene was published by Mathews (1967). Further evidence is presented now by showing that the newly synthesized enzyme differs from the preexisting E. coli reductase in molecular weight and salt solubility.The expression of the T5 dihydrofolate reductase gene was not affected by deletions in the del region of the phage genome. The map position of the reductase gene was determined by marker rescue experiments designed as helped transfection procedure: When E. coli B cells were preinfected with T5 dihydrofolate reductase amber mutants, made competent, and transfected with T5 wild type DNA, viable phages were obtained. Wild type recombinant phages were observed, when the transfecting DNA had been digested with the restriction endonucleases EcoRI, HpaI, PstI, and SalI. No rescue occurred when the DNA had been digested with AluI, EcoRII, HindII, HindIII, MboII, Sau3A, and XbaI. Single EcoRI, HpaI, and SalI restriction fragments were isolated and found to rescue the dihydrofolate reductase gene. Their common overlapping sequence corresponds to 8.6% of the phage DNA, a segment of about 10,000 base pairs length, which extends from position 0.37 to position 0.46 of the physical map. After cleaving this segment at its single HindIII recognition site marker rescue no longer occurred. From these results it was concluded that the dihydrofolate reductase gene either lies at or very close to this site at position 0.4.The helped transfection method was also used to rescue T5 mutants with defects in the genes C2 and D9. Gene C2 was localized on an EcoRI fragment that covers the DNA from map position 0.08 to map position 0.25. By localizing the two genes B3 and C2 on the restriction map of the T5 DNA a correlation of the genetic and the physical maps of the T5 genome has been established. Abbreviations. The symbols for T5 phages follow those of McCorquodale (1975) and the nomenclature for restriction nucleases that of Smith and Nathans (1973). kb=kilo base pairs     

AFLP markers in a molecular linkage map of maize: codominant scoring and linkage group ditsribution

We exploited the AFLP technique to saturate a RFLP linkage map derived from a maize mapping population. By using two restriction enzyme, EcoRI and PstI, differing in methylation sensitivity, both in combination with MseI, we detected 1568 bands of which 340 where polymorphic. These were added to the exitsing RFLP marker data to study the effects of incorporation of AFLPs produced by different restriction-enzyme combinations upon genetic maps. Addition of the AFLP data resulted in greater genome coverage, both through linking previously separate groups and the extension of other groups. The increase of the total map length was mainly caused by the addition of markers to telomeric regions, where RFLP markers were poorly represented. The percentage of informative loci was significantly different between the EcoRI and PstI assays. There was also evidence that PstI AFLP markers were more randomly distributed across chromosomes and chromosome regions, while EcoRI AFLP markers clustered mainly at centomeric regions. The more-random ditsribution of PstI AFLP markers on the genetic map reported here may reflect a preferential localisation of the markers in the hypomethylated telomeric regions of the chromosomes. Received: 22 December 1998 / Accepted: 25 March 1999     

Chloroplast DNA differences between cultivated hop,Humulus lupulus and the related species H. japonicus

Chloroplast DNA (cpDNA) of Humulus Lupulus and H. japonicus was examined by restriction endonuclease analysis with BamHI, BanI, BclI, BstEII, DraI, EcoRI, EcoRV, HindIII, KpnI, PaeR7I, PstI, PvuII, SalI and XhoI. The restriction fragment patterns showed that the cpDNAs shared a large number of restriction sites. However, the chloroplast genomes of the two species could be distinguished by differences in restriction site and restriction fragment patterns in the PstI, PvuII, BclI, EcoRV, DraI and HindIII digests. On the basis of the complexity of restriction enzyme patterns, the enzymes PstI, PvuII, SalI, KpnI and XhoI were selected for mapping the chloroplast genomes. Single and double restriction enzyme digests of cpDNA from the two species were hybridized to cpDNA probes of barley and tobacco. The data obtained from molecular hybridization experiments were used to construct the cleavage site maps. Except for the PstI digest, the arrangement of cpDNA restriction sites was found to be the same for both species. An extra PstI site was present in H. lupulus. Three small insertions/deletions of about 0.8 kbp each were detected in the chloroplast genomes of the two species. Two of these insertions/deletions were present in the large and one in the small singlecopy region of the chloroplast genome. The cpDNA of Humulus was found to be a circular molecule of approximately 148 kbp that contains two inverted repeat regions of 23 kbp each, a small and a large single -copy region of approximately 20 kbp and 81 kbp, respectively. The chloroplast genome of hop has the same physical and structural organization as that found in most angiosperms.