A site-specific endonuclease from Caulobacter crescentus CB-13: restriction endonuclease CcrI

A site-specific restriction endonuclease (CcrI) has been identified from Caulobacter crescentus CB-13. This enzyme has been purified to homogeneity and the cleavage patterns with various DNAs and sequence data show that CcrI recognizes the same sequence as the XhoI restriction endonuclease (5′-C^↓-T-C-G-A-G-3′). Ccr has an absolute requirement for magnesium ions with an optimum concentration of 4 mM. The enzyme is optimally active at pH 8.0 and is stable up to 70°C. CcrI has a molecular weight of 65300 and exists as a monomer in its native state. Most of the physical characteristics observed for CcrI were similar to those observed for XhoI. Kinetic studies on CcrI and XhoI suggest that the enzymes interact with λ DNA in the same manner; however, with ?X-174 R.F. DNA, CcrI has a greater affinity for the supercoiled molecule than XhoI.     

Size and physical organization of chloroplast DNA from mustard (Sinapis alba L.)

Summary Intact chloroplast (cp)DNA from mustard cotyledons (Sinapis alba L.) was found by electron microscopy to be a uniform population of circular molecules with a contour length corresponding to 158 kilobase pairs. This size was confirmed by restriction endonuclease analysis. Nucleases SalI and XhoI each generate a small number of cpDNA fragments. The sizes of all fragments generated by each enzyme sum up to more than 150 kilobase pairs. Overlaps of SalI and XhoI fragments were determined by double digestion and triple digestion including SmaI. A physical map of mustard cpDNA with reference to all recognition sites for SalI and most sites for XhoI is presented. This map indicates that an inverted repeated sequence covers approximately 30% of the molecule and is interrupted by two unique sequence regions of different sizes.     

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.     

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.     

A physical map of bacteriophage T4 including the positions of strong promoters and terminators recognized in vitro

Summary We present a linearized physical map of the genome of bacteriophage T4. This map contains the cleavage sites for restriction enzymes SmaI, KpnI, SalI, BglII, XhoI, XbaI, ClaI, HaeII, EcoRI, and EcoRV. It also contains about 200 TaqI sites. The promoter sites recognized in vitro and a number of rho independent terminators have also been mapped.     

A Simple and Practical Method for Typing and Strain Differentiatin of Herpes Simplex Virus Using Infected Cell DNAs

A simple and practical method for typing and strain differentiation of herpes simplex virus (HSV) isolates, based upon analysis of the restriction endonuclease cleavage patterns of viral DNAs, was established by using unlabeled infected cell DNAs. The preparation of infected cell DNA is technically easier than that of purified viral DNA or of radiolabeled viral DNA. The method provides a powerful and practical tool for epidemiological and clinical studies of HSV infection, which can be performed in most diagnostic laboratories. In order to select suitable restriction endonucleases for the study of HSV isolates, the cleavage patterns of viral DNAs (strains MacIntyre, HF, UW-268, and SAV) with 12 enzymes were analyzed. Several enzymes, Bam HI, Kpn I, Pst I, Sal I, Sst I, and Xho I, were found to be useful for both typing and strain differentiation. With this method, HSV isolates from different individuals and from the same individual were analyzed by digestion of their infected cell DNAs with Bam HI. Six isolates from epidemiologically unrelated individuals were readily typed and differentiated from each other. Three isolates from the same individual showed very similar patterns. However, there was a small degree of difference between the first two isolates and the third isolate.     

Restriction on Conjugational Transfer of pLS20 in Bacillus subtilis 168

Conjugational transfer of pLS20 in Bacillus subtilis Marburg 168 is restricted by the BsuM restriction-modification system. Restriction efficiency was measured using pLS20 derivatives possessing various numbers of XhoI sites, which are known to be recognized by BsuM. An increase in XhoI sites clearly reduced the conjugational efficiency of pLS20 as compared with that of pUB110 plasmid lacking XhoI.     

Chloroplast genome differences between Paspalum dilatatum Poir and the related species P. notatum Flugge

 Chloroplast DNA (cpDNA) of Paspalum dilatatum and P. notatum was digested singly or in combination with the restriction endonucleases PstI, PvuII, SalI, KpnI and XhoI. Data obtained from filter hybridization experiments with barley and wheat cpDNA probes were used to construct restriction site maps of the chloroplast genomes of the Paspalum species. The cpDNA fragments were ordered into a circular configuration of approximately 139.3 kbp that contained two inverted repeat regions of approximately 23 kbp and a small and large single-copy region of approximately 11 kbp and 83 kbp, respectively. The cpDNA maps showed that P. dilatatum and P. notatum shared a large number of restriction sites with the proportion of shared restriction sites S=0.90. No restriction site differences were detected in the KpnI maps. Eight species-specific restriction site differences that could be used to identify the cytoplasm of each Paspalum species were identified in the PstI, PvuII, SalI, and XhoI cleavage maps. The overall structural organization of the Paspalum cpDNAs is rather similar to those of most cpDNAs from other plants. The results presented in this study will be of value for exploring further phylogenetic relationships within the genus Paspalum. Received: 27 February 1997 / Accepted: 7 March 1997     

Genetic differentiation between laboratory lines of the musk shrew (Suncus murinus,insectivora) based on restriction endonuclease cleavage patterns of mitochondrial DNA

The cleavage patterns of mitochondrial DNA (mtDNA) by 17 restriction endonucleases were compared between eight lines of musk shrews derived from different wild-caught stocks. Enzymatic digestion byBamHI,PvuII,XbaI, andXhoI showed a cleavage pattern common to all lines that were from five Japanese islands (Nag, Ize, OKI, TKU, and Tr), Bangladesh (BAN), Sri Lanka (SRI), and Java (Bog), and every line lacked cleavage sites forSalI andSmaI. Different cleavage patterns were detected by the remaining 11 enzymes. Within the BAN line, the presence of at least two types of mtDNAs was proved by six enzymes and was not contradictory to the maternal pedigrees going up to the wild ancestors of the stock. More than 30 cleavage sites of the shrew mtDNA were mapped by double-digestion methods. Nucleotide diversities of mtDNA were calculated from these maps and were estimated to be less than 0.5% among Japanese and Bog lines but to be 3.8% between BAN and the other seven lines and 2.3% within the BAN line. These results indicate that BAN shrews differentiate from the other lines to the intersubspecific extent reported in mice previously.     

Restriction Fragment Length Polymorphism Analysis of the Mitochondrial DNA of Fusarium oxysporum f. sp. ciceris

Seven isolates of Fusarium oxysporum f. sp. ciceris, representing pathogenic races 1 , 2, 3, and 4 from India and 0, 5, and 6 from Spain, were assayed for restriction fragment length polymorphisms (RFLPs) in the mitochondrial DNA,(mt DNA). The mt DNA fraction of total fungal DNA was purified and digested with the restriction endonucleases Bam HI, Bgl II, Eco RI. Kpn I, Sac I, Sal I, Sma I, and Xho I. The mt DNA is a circular molecule of 40.5 kb. No RFLP in the mt DNA was detected among the seven races of F. o. ciceris. The identical restriction patterns of mt DNA indicates an extensive conservation in the gene composition of mt DNA without sequence variation, and suggests that mt DNA of F. o. ciceris may not be responsible for pathogenic diversity. The restriction map of mt DNA from the race 6 isolate Fo 8272 was constructed by digestion of the mt DNA with five restriction enzymes: Eco RI, Kpn I, Sac I, Sal I, and Xho I, either singly or in selected pairs.     

An essential gene for replication of the mini-F plasmid from origin I

Summary We constructed a series of defective mini-F plasmids, which have deletion(s) in the replication origin I and/or origin II, and their derivatives, which do not produce F3 protein, by insertion of the XhoI fragment of Tn5 into the XhoI site at 41.0 F (kilobases on the coordinate map of F-plasmid). Using these mutant mini-F plasmids, we found that F3 protein is essential for the replication of mini-F from origin I, but not from origin II.     

Analysis of oral infection and helicase gene of the nucleopolyhedroviruses isolated from Philosamia cynthia ricini and Antheraea pernyi

Philosamia cynthia ricini is an important commercial silkworm in Asia. In this report, a nucleopolyhedrovirus isolated from P. cynthia ricini (PhcyNPV) larva was purified and compared with Antheraea pernyi nucleopolyhedrovirus (AnpeNPV), a pathogen of A. pernyi, another commercial silkworm in China. The two viruses had similar polyhedral morphology and shared high sequence homologue of viral fragments including the p143 gene. However, the restriction fragments, digested with SalI, XhoI, HindIII and PstI, respectively, were different. The cross-infectivity of the two viruses was also tested. AnpeNPV caused 57% mortality in larvae of P. cynthia rici, whereas PcrNPV did not kill larvae of A. pernyi. Results indicated that PhcyNPV and AnpeNPV had closed relatedness, and that PhcyNPV might be a variant of AnpeNPV.     

The structure of the chloroplast genome in members of the genus Asparagus

 In a previous study we constructed a physical map of the chloroplast DNA (ctDNA) of garden asparagus (Asparagus officinalis L. cv ‘Mary Washington 500W’; Lee et al. 1996). In the present study we have constructed and compared HindIII and XhoI restriction maps of the ctDNAs of eight species of Asparagus: namely, A. officinalis, A. schoberioides, A. cochinchinensis, A. plumosus, A. falcatus, A. sprengeri, A. virgatus and A. asparagoides. The ctDNA of A. officinalis has 32 and 23 sites that are recognized by HindIII and XhoI, respectively. Taking the physical map of the ctDNA of A. officinalis as a standard, we found that the ctDNAs of A. falcatus, A. sprengeri, and A. asparagoides each had one additional HindIII site and lacked one XhoI site. We also detected two relatively large deletions of nucleotides in the ctDNA from A. cochinchinensis by sequencing analysis. Both of these deletions were located in a non-coding region between the ndhC and trnV genes and were 95 bp and 347 bp in length, respectively. The regions around the deletions exhibited strong homology, and short direct-repeat sequences were detected at the borders of the deletions, an indication that these deletions were the result of intramolecular recombination mediated by the direct repeats. Received: 16 June 1997 / Accepted: 17 July 1997     

Structural organization of the nuclear ribosomal RNA genes in Cannabis and Humulus (Cannabaceae)

The structural organization of the nuclear ribosomal DNA (rDNA) of Humulus lupulus, H. japonicus and Cannabis sativa was determined by restriction site mapping. A high degree of DNA sequence similarity was evident in the coding regions of the rDNA repeats of the taxa and supports the placement of Cannabis and Humulus in one family, Cannabaceae. However, the presence of a BstEII site, an additional SacI site, absence of the SpeI site and positional differences of the SspI sites in the 25 S gene distinguished H. japonicus from H. lupulus. Humulus lupulus has an additional EcoRV site in the IGS region. A XhoI site in the 18S region of C. sativa distinguishes it from the two hop species. The diagnostic differences in the IGS of C. sativa include the EcoRI, HindIII and XhoI sites. These sites were not detected in the IGS of the two hop species.     

Alterations in the primary structure of an 85-MDa plasmid affecting flagellation and motility in the bacterium <Emphasis Type="Italic">Azospirillum brasilense</Emphasis> Sp245

Earlier, such Azospirillum brasilense Sp245 mutants as flagellation-defective SK051, SK248 with paralyzed flagella, and BK570 swimming and swarming faster than Sp245 were obtained. In SK051 and SK248, the suicide vector pJFF350 integrated into the 18.3-kb XhoI fragment of an 85-MDa plasmid (p85) while in BK570, it integrated into the 9.1-kb XhoI-fragment of p85. In the present work, analysis of the nucleotide sequence of fusion products of p85 and pJFF350 was performed. In p85, in addition to three IS elements (two of which mediated cointegrate formation) and phage integrase gene, 22 open reading frames with coding properties were identified. Possible participation of predicted translation products of several p85 genes in determination of bacterial motility is discussed. Since differences in the primary structure of p85::pJFF350 cointegrates from SK051 and SK248 cells are localized within pJFF350 DNA, different effects of DNA-folding changes on the expression of corresponding p85 genes are suggested.     

A restriction enzyme cleavage map of Tn5 and location of a region encoding neomycin resistance.

Summary This paper reports a cleavage site map of Tn5 for restriction enzymes BamHI, BglI, BglII, HindII, HindIII, HpaI, SalI, AvaI, SmaI, XhoI, PstI, PvuII, HaeII and HaeIII that was determined by the analysis of restriction enzyme cleavage patterns of ColEl, two independent ColE1::Tn5 plasmids, and a ColE1::Tn5 deletion derivative. BalI, EcoRI, KpnI, and PvuI do not cleave Tn5. Construction and analysis of in vitro-generated deletions of a ColE1::Tn5 plasmid limit the sequences encoding neomycin resistance to a 1500-base-pair-long segment of Tn5. Insertion of DNA at a BglII site within this segment results in loss of the neomycin resistance phenotype. Since this BglII site lies in an inverted repeat region, sequences within this repeat seem to be involved in the expression of neomycin resistance.     

W-heterochromatin of chicken; its unusual DNA components,late replication,and chromatin structure

About 65% of DNA in the chicken W chromosome has been shown to consist ofXhoI andEcoRI family repetitive sequences. These sequences showed remarkable delay in the electrophoretic mobility at low temperature on a polyacrylamide gel. Three dimensional structures of the 0.7-kbXhoI and the 1.2-kbEcoRI family repeating units were estimated to be irregular solenoids using a computer program based on wedge angles of all the 16 dinucleotide steps. Fluorescencein situ hybridization demonstrated that these two family sequences were localized in a major heterochromatic body in an interphase nucleus. Incorporation of bromodeoxyuridine into the W chromosome in the synchronous culture of MSB-1 cells occurred about 1 h later than the peak of S phase. The chromatin structure formed alongXhoI andEcoRI family sequences was suggested to be different from the total chromatin or chromatin containing the β-actin gene sequence in that the linker DNA lengths of the former were significantly longer. Fractionation of theHaeIII-digested MSB-1 nuclei yielded a chromatin fraction in whichXhoI family sequences were partially enriched. Several DNA-binding proteins showing higher affinity for theXhoI family sequence were present in this fraction.     

The repeated sequences (incB) preceding the protein E gene of plasmid mini-F are essential for replication

Summary At the XhoI site (45.08F) of plasmid mini-F a deletion of 649 bp was generated employing exonuclease Bal31. By this deletion nucleotide sequences functioning as origin II and the four 19 bp direct repeats constituting the incB region in front of the E protein gene were removed from the plasmid. Analysis of proteins radioactively labelled in Escherichia coli mini-cells indicated that all mini-F encoded proteins are expressed. However, the plasmid carrying the deletion was not capable of replicating from the primary origin (origin I, 42.6F). Recently a smaller deletion at the XhoI site (45.08F) of about 300 bp, removing only the region functioning as origin II and replicating from origin I, was described by Tanimoto and Iino (1984, 1985). The data presented suggest that the incB repeats are essential for the initiation of replication from origin I, and possibly also from origin II, and seem not to be engaged in the autoregulation of E protein expression.     

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.