Characterization of DNA restriction and modification activities in Neisseria species

Type II restriction endonuclease activities detected in various Neisseria species were characterized for sequence specificity and precise site of cleavage. NsiCI isolated from N. sicca C351 cleaves the sequence 5′-GAT↓ATC-3′ (EcoRV isoschizomer); NmeCI from N. meningitidis C114 and NphI from N. pharyngis C245 cleave 5′-N↓GATCN-3′ (MboI isoschizomers); NgoPII and NgoPIII from N. gonorrhoeae P9-2 cleave at 5′-CC↓GCGG-3′ (SacII isoschizomer) and 5′-GG↓CC-3′ (HaeIII isoschizomer), respectively. Chromosomal DNA isolated from these strains and two other N. meningitidis strains (which lacked detectable endonuclease activities), was found to be refractive to cleavage by various restriction enzymes, implying the presence of methylase activities additional to those required for protection against the cellular endonucleases.     

A combined polymerase chain reaction and restriction endonuclease enzyme assay for discriminating between Campylobacter coli and Campylobacter jejuni

Abstract A combined polymerase chain reaction and restriction endonuclease (RE) enzyme assay was developed to discriminate between Campylobacter coli and Campylobacter jejuni . Amplimers of the FlaA gene obtained by PCR were digested with Alu I and Hin fI to distinguish C. coli from C. jejuni . With Alu I digestion C. jejuni -specific bands were observed at 110, 140 and 160 bp and C. coli -specific bands at 293 and 147 bp. C. jejuni -specific bands of 349 and 109 bp were found by Hin fI digestion but Hin fI did not digest the Fla A amplimer of C. coli . This combined technique is fast and easy to perform, and distinguishes the two campylobacters unequivocally.     

Characterization of restriction endonuclease AjoI from Acinetobacter johnsonii

Abstract A new type II restriction endonuclease, named Ajo I, was detected in Acinetobacter johnsonii . The enzyme Ajo I, an isoschizomer of Pst I, recognized the hexanucleotide sequence [5'-CTGCA/G-3'], with a cleavage site generating fragments of DNA with protruding cohesive 3' termini.     

Simultaneous binding of three recognition sites is necessary for a concerted plasmid DNA cleavage by EcoRII restriction endonuclease

According to the current paradigm type IIE restriction endonucleases are homodimeric proteins that simultaneously bind to two recognition sites but cleave DNA at only one site per turnover: the other site acts as an allosteric locus, activating the enzyme to cleave DNA at the first. Structural and biochemical analysis of the archetypal type IIE restriction enzyme EcoRII suggests that it has three possible DNA binding interfaces enabling simultaneous binding of three recognition sites. To test if putative synapsis of three binding sites has any functional significance, we have studied EcoRII cleavage of plasmids containing a single, two and three recognition sites under both single turnover and steady state conditions. EcoRII displays distinct reaction patterns on different substrates: (i) it shows virtually no activity on a single site plasmid; (ii) it yields open-circular DNA form nicked at one strand as an obligatory intermediate acting on a two-site plasmid; (iii) it cleaves concertedly both DNA strands at a single site during a single turnover on a three site plasmid to yield linear DNA. Cognate oligonucleotide added in trans increases the reaction velocity and changes the reaction pattern for the EcoRII cleavage of one and two-site plasmids but has little effect on the three-site plasmid. Taken together the data indicate that EcoRII requires simultaneous binding of three rather than two recognition sites in cis to achieve concerted DNA cleavage at a single site. We show that the orthodox type IIP enzyme PspGI which is an isoschisomer of EcoRII, cleaves different plasmid substrates with equal rates. Data provided here indicate that type IIE restriction enzymes EcoRII and NaeI follow different mechanisms. We propose that other type IIE restriction enzymes may employ the mechanism suggested here for EcoRII.     

Quantitative evaluation of metal ion binding to PvuII restriction endonuclease

19 F NMR spectroscopy have been applied to evaluate metal ion binding by the representative PvuII endonuclease in the absence of substrate. In separate experiments, ITC data demonstrate that PvuII endonuclease binds 2.16 Mn(II) ions and 2.05 Ca(II) metal ions in each monomer active site with K _d values of  ≈ 1 mM. While neither calorimetry nor protein NMR spectroscopy is directly sensitive to Mg(II) binding to the enzyme, Mn(II) competes with Mg(II) for common sites(s) on PvuII endonuclease. Substitution of the conserved active site carboxylate Glu68 with Ala resulted in a loss of affinity for both equivalents of both Ca(II) and Mn(II). Interestingly, the active site mutant D58A retained an affinity for Mn(II) with K _d  ≈ 2 mM. Mn(II) paramagnetic broadening in ¹⁹F spectra of wild-type and mutant 3-fluorotyrosine PvuII endonucleases are consistent with ITC results. Chemical shift analysis of 3-fluorotyrosine mutant enzymes is consistent with a perturbed conformation for D58A. Therefore, free PvuII endonuclease binds metal ions, and metal ion binding can precede DNA binding. Further, while Glu68 is critical to metal ion binding, Asp58 does not appear to be critical to the binding of at least one metal ion and appears to also have a role in structure. These findings provide impetus for exploring the roles of multiple metal ions in the structure and function of this representative endonuclease. Received: 30 March 1999 / Accepted: 28 September 1999     

Directed evolution of restriction endonuclease BstYI to achieve increased substrate specificity

Restriction endonucleases have proven to be especially resistant to engineering altered substrate specificity, in part, due to the requirement of a cognate DNA methyltransferase for cellular DNA protection. The thermophilic restriction endonuclease BstYI recognizes and cleaves all hexanucleotide sequences described by 5'-R GATCY-3' (where R=A or G and Y=C or T). The recognition of a degenerate sequence is a relatively common feature of the more than 3000 characterized restriction endonucleases. However, very little is known concerning substrate recognition by such an enzyme. Our objective was to investigate the substrate specificity of BstYI by attempting to increase the specificity to recognition of only AGATCT. By a novel genetic selection/screening process, two BstYI variants were isolated with a preference for AGATCT cleavage. A fundamental element of the selection process is modification of the Escherichia coli host genomic DNA by the BglII N4-cytosine methyltransferase to protect AGATCT sites. The amino acid substitutions resulting in a partial change of specificity were identified and combined into one superior variant designated NN1. BstYI variant NN1 displays a 12-fold preference for cleavage of AGATCT over AGATCC or GGATCT. Moreover, cleavage of the GGATCC sequence is no longer detected. This study provides further evidence that laboratory evolution strategies offer a powerful alternative to structure-guided protein design.     

A type II restriction endonuclease of Streptococcus thermophilus ST117

Three separate sets of polymerase chain reaction primers were designed to specifically detect the presence of a toxin A gene fragment, a toxin B gene fragment, and the entire toxin B gene. In addition toxin gene fragments that were amplified from well characterized toxic strains were tagged fluorescently and used as hybridization probes to screen C. difficile strains. A survey of 37 toxic strains and 10 non-toxic strains demonstrated that toxic strains normally contain the genetic composition for toxin A and toxin B simultaneously; whereas, non-toxic strains typically did not contain detectable toxin determinants. The only exception found was strain 39, which had the genetic composition for toxins A and B, but was not cytotoxic under the conditions tested.     

Characterization of restriction endonuclease BfrBI from Bacteroides fragilis strains BE3 and AIP 10006

A new type II restriction endonuclease, named BfrBI, was detected in two strains of Bacteroides fragilis, BE3 and AIP 10006 (NCTC 9343T). The enzyme BfrBI, an isoschizomer of NsiI and AvaIII, recognized the hexanucleotide sequence [5'-ATG decreases CAT-3'], with a cleavage site generating blunt ends.     

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.     

Differentiation of Bartonella species using restriction endonuclease analysis of PCR-amplified 16S rRNA genes

Abstract Differentiation of the four Bartonella species which were formerly classified as Rochalimaea using restriction endonuclease analysis of PCR-amplified citrate synthase gene fragments has previously been described. However, attempts to extend this method to include all members of Bartonella were confounded when amplification of the gene fragment from strains of B. bacilliformis each yielded two products of differing sizes. An alternative differentiation scheme for Bartonella species was developed based on restriction endonuclease analysis of their 16S rRNA genes. As the complete 16S rRNA gene sequences of all extant Bartonella species are available, the usefulness of specific endonucleases could be theoretically predetermined rather than discovered empirically. The potential usefulness of the restriction enzymes Ddel and Mnll was established using this approach, and this potential was confirmed in practice as all eight species could be distinguished from each other.     

A new estimate of sequence divergence of mitochondrial DNA using restriction endonuclease mappings

Summary A new estimate of the sequence divergence of mitochondrial DNA in related species using restriction enzyme maps is constructed. The estimate is derived assuming a simple Posisson-like model for the evolutionary process and is chosen to maximize an expression which is a reasonable approximation to the true likelihood of the restriction map data. Using this estimate, four sets of mitochondrial DNA data are analyzed and discussed.     

DNA binding and cleavage by the HNH homing endonuclease I-HmuI

The structure of I-HmuI, which represents the last family of homing endonucleases without a defining crystallographic structure, has been determined in complex with its DNA target. A series of diverse protein structural domains and motifs, contacting sequential stretches of nucleotide bases, are distributed along the DNA target. I-HmuI contains an N-terminal domain with a DNA-binding surface found in the I-PpoI homing endonuclease and an associated HNH/N active site found in the bacterial colicins, and a C-terminal DNA-binding domain previously observed in the I-TevI homing endonuclease. The combination and exchange of these features between protein families indicates that the genetic mobility associated with homing endonucleases extends to the level of independent structural domains. I-HmuI provides an unambiguous structural connection between the His-Cys box endonucleases and the bacterial colicins, supporting the hypothesis that these enzymes diverged from a common ancestral nuclease.     

Cloning and Sequencing of the Gene Encoding 10 kD Zein of Maize

The results of cloning and sequencing of the gene encoding 10 kD zein of maize (Zea mays L. ) with polymerase chain reaction (PCR) technique are here with presented. The genomic DNA template was extracted from sterilized seedlings of maize. Primered with a pair of synthetic 5′and 3′ PCR primers, a 0.57 kb DNA fragment was obtained after 30 PCR amplification cycles. The restriction map of the DNA fragment has been determined. The result indicated that the entire coding sequence of 10 kD zein gene has been cloned. The homologies of the DNA sequence and deduced amino acid sequences between our result and those published abroad are 96% and 90% respectively. As l0 kD zein is rich in sulphur, this gene might be used to improve the quality of crops, especially, the forage legumes by genetic engineering.     

Engineering of restriction endonucleases: using methylation activity of the bifunctional endonuclease Eco57I to select the mutant with a novel sequence specificity

Type II restriction endonucleases (REs) are widely used tools in molecular biology, biotechnology and diagnostics. Efforts to generate new specificities by structure-guided design and random mutagenesis have been unsuccessful so far. We have developed a new procedure called the methylation activity-based selection (MABS) for generating REs with a new specificity. MABS uses a unique property of bifunctional type II REs to methylate DNA targets they recognize. The procedure includes three steps: (1) conversion of a bifunctional RE into a monofunctional DNA-modifying enzyme by cleavage center disruption; (2) mutagenesis and selection of mutants with altered DNA modification specificity based on their ability to protect predetermined DNA targets; (3) reconstitution of the cleavage center's wild-type structure. The efficiency of the MABS technique was demonstrated by altering the sequence specificity of the bifunctional RE Eco57I from 5'-CTGAAG to 5'-CTGRAG, and thus generating the mutant restriction endonuclease (and DNA methyltransferase) of a specificity not known before. This study provides evidence that MABS is a promising technique for generation of REs with new specificities.     

Plasmid profiles and genomic DNA restriction endonuclease patterns of 30 independent Staphylococcus lugdunensis strains

Extrachromosomal DNA analysis and restriction endonuclease analysis of whole cellular DNA were used to characterize 30 Staphylococcus lugdunensis strains isolated from 13 different hospitals from 1977 to 1988. All the strains were susceptible to most of the antibiotics tested, including penicillin G. A single 3.2 kilobase plasmid was detected in 13 strains and one or two plasmids, ranging from 2.3 to 6.6 kilobases, were found in 7 strains. EcoRI, PstI and PvuII restriction patterns of total cellular DNA were identical for 23 isolates, indicating strong conservation of endonuclease sites in this species. One or two additional DNA bands occurred in seven isolates. Molecular markers show rather little variations between different S. lugdunensis isolates suggesting that they are closely related.     

Characterization of intein homing endonuclease encoded in the DNA polymerase gene of Thermococcus marinus

The DNA polymerase gene of Thermococcus marinus ( Tma ) contains an intein inserted at the pol-b site that possesses a 1611-bp ORF encoding a 537-amino acid residue. The LAGLIDADG motif, often found in site-specific DNA endonucleases, was detected within the amino acid sequence of the intein. The intein endonuclease, denoted as PI- Tma , was purified as a naturally spliced product from the expression of the complete DNA polymerase gene in Escherichia coli . PI- Tma cleaved intein-less DNA sequences, leaving four-base-long, 3'-hydroxyl overhangs with 5'-phosphate. Nonpalindromic recognition sequences 19 bp long were also identified using partially complementary oligonucleotide pair sequences inserted into the plasmid pET-22b(+). Cleavage by PI- Tma was optimal when present in 50 mM glycine–NaOH (pH 10.5), 150 mM KCl and 12 mM MgCl₂ at 70 °C.     

An improved method for estimating sequence divergence of DNA using restriction endonuclease mappings

Summary The method proposed by Kaplan and Langley for estimating the extent of sequence divergence between related DNA's using restriction endonuclease maps is modified so that the estimates are easier to compute. In the two-species case, these modifications lead via a maximum likelihood approach to an estimate which is closely related to one recently suggested by Nei and Li (1979) and Gotoh et al. (1979). Simulation studies show that the modified estimates are comparable to those of Kaplan and Langley, providing that there is sufficient homology in the DNA segments of the related species. The M-species case, M 3, is also discussed.     

Evaluation of the Applied Biosystems automated Taqman polymerase chain reaction system for the detection of meningococcal DNA

In a period where the proportion of culture confirmed cases in the UK has been steadily declining, diagnosis by PCR has been used to increase the number of confirmed cases and provide additional epidemiological data. This report presents a comparative evaluation of the fluorogenic probe-based 5' exonuclease assay (Taqman) using the Perkin-Elmer Applied Biosystems automated sequence detection system 7700 with previously reported polymerase chain reaction enzyme-linked immunosorbent (PCR ELISA) assays for the detection of meningococcal DNA in CSF, plasma and serum samples. Taqman assays developed were based on the detection of a meningococcal capsular transfer gene (ctrA), the insertion sequence IS1106 and the sialytransferase gene (siaD) for serogroup B and C determination and compared with similar assays in a PCR ELISA format. The Taqman ctrA assay was specific for Neisseria meningitidis, however the IS1106 assay gave false positive reactions with a number of non-meningococcal isolates. Sensitivity of the Taqman ctrA, IS1106 and siaD assays testing samples from culture-confirmed cases were 64, 69 and 50%, respectively, compared with 26, 67 and 43% for the corresponding PCR ELISA assays. Improvements to the DNA extraction procedure has increased the sensitivity to 93 and 91% for the TaqMan ctrA and siaD assays, respectively, compared to culture confirmed cases. Since the introduction of Taqman PCR a 56% increase in laboratory confirmed cases of meningococcal disease has been observed compared to culture only confirmed cases. The developed Taqman assays for the diagnosis of meningococcal disease enables a high throughput, rapid turnaround of samples with considerable reduced risk of contamination.     

限制性内切酶Mlu I蛋白及其硒代衍生物的制备

[背景]限制性内切酶Mlu I是一种常用的工具酶,在分子生物学领域发挥着重要的作用,其三维结构尚未被解析.[目的]在大肠杆菌中克隆表达、纯化重组Mlu I蛋白及其硒代蛋白,并进行结晶条件的研究.[方法]构建重组表达载体pET28b-Mlu I,在大肠杆菌BL21(DE3)pLysS中诱导表达,利用亲和层析和凝胶过滤层析...