A method for detecting restriction endonucleases in bacterial colonies

A simple technique is proposed for detection of bacterial restriction endonucleases. Analysis is performed directly in the cells from colonies cultivated on Petri dishes. The cells collected with an inoculation loop are treated with lysozyme and Triton X-100. After centrifugation the supernatant is tested for endonuclease activity. The technique enables up to 100 colonies to be tested for 3-4 h.     

Isolation of high molecular weight eukaryotic DNA with the use of potassium acetate

The simple technique for isolation of high-molecular eucaryotic DNA has been proposed. It includes cell or nuclei lysates by sodium dodecylsulfate in the presence of pronase, proteins precipitation by potassium acetate, DNA precipitation by ethanol. The DNA isolated by this technique is easily cleaved by restriction endonucleases and can be used for analysis of the unique genes by blot-hybridization. The yield of DNA is similar or somewhat higher than that in case of using the standard methods including phenol extraction or phenol-chloroform extraction.     

The use of cetyltrimethylammonium bromide for the rapid isolation from Staphylococcus aureus of relaxable and non-relaxable plasmid DNA suitable for in vitro manipulation

Plasmid DNA was isolated from Staphylococcus aureus by a rapid method that depends on the precipitation of DNA from cleared lysates by cetyltrimethylammonium bromide at low salt concentrations. The method was validated by its ability to provide DNA for restriction analysis of a highly relaxable plasmid species that is not isolated by more traditional techniques. The DNA can be digested with restriction endonucleases and used for transformation without further purification. The method also provides the basis for analysing staphylococcal plasmids that display a high frequency of deletion after transfer. Simple modifications of the technique allow plasmid DNA to be isolated from other bacteria and the rapid purification of DNA samples before in vitro manipulation.     

Restriction endonucleases from Bifidobacteria

The sitespecific restriction endonucleases were found in four strains among the twelve strains of anaerobic bacteria of generum Bifidobacterium. Two of the restriction endonucleases studied, BadI from B. adolescentis LVA1 and BbfI from B. bifidum LVA3, are isoshizomers of XhoI and recognize the nucleotide sequence CTCGAG. The restriction endonucleases Bbf7411I from B. bifidum 7411 and Bla7920I from B. lactentis 7920 recognize and hydrolize the nucleotide sequence TCCGGA having the specifity analogous to the one of restriction endonuclease CauB3I. Like CauB3I, these restriction endonucleases are unable to hydrolyize DNA if the adenine residues in the recognition site are methylated.     

Production of restriction endonucleases using multicopy Hsd plasmids occurring naturally in pathogenic Escherichia coli and Shigella boydii

A convenient procedure has been devised for detection of restriction endonucleases in the Escherichia coli-Shigella group. With this procedure, two restriction endonucleases, designated Sbo 13 and Eco T22, were found and later were identified as isoschizomers of NruI and AvaIII, respectively. These endonucleases were shown to be produced from small multicopy plasmids. They were isolated from nonpathogenic E. coli into which the plasmids had been introduced by transformation, and purified from contaminating nuclease activity. The yield was high, 1,000 units/g of wet cells for Sbo 13 and 500 units/g for Eco T22. Sbo 13 and Eco T22 should be preferable to NruI and AvaIII because of the high yield and ease in handling the producer cells.     

Detection of aquatic microorganisms from the Black Sea--producers of restriction endonucleases

300 clones of microorganisms isolated at different stations and from different depths in the Black Sea were screened for restriction endonucleases production. The production of restriction endonucleases was found in 17 clones screened. Three of them were identified to be Alteromonas haloplanktis B1. Restriction endonuclease AhaB1 is an isoshizomer of Sau961. An identified Alteromonas haloplanktis clone B8 produces AhaB8I restriction endonuclease the prototype to which is KpnI. Of the clones isolated three are Moraxella species B4 producing MapB4I restriction endonuclease analogous to BanI, three are Bacillus species producing BspB2I and one is Micrococcus lylae 113 producing Mly1131 analogue of NarI, six Moraxella species B6 produce MspB6I. The isolated producer strains may be used for isolation of above mentioned restriction endonucleases.     

Bsu2413I and Bfi2411I,two new thermophilic type II restriction endonucleases from Bacillus subtilis and Bacillus firmus: isolation and partial purification – Thermophilic endonucleases from two Bacillus species

Two new thermophilic type II restriction endonucleases, which we designated as Bsu2413I and Bfi2411I, have been isolated from gram-positive thermophilic bacteria Bacillus subtilis strain 2413 and Bacillus firmus strain 2411 respectively and partially purified. The restriction endonucleases were extracted from cell extracts and purified using single step purification through phosphocellulose column chromatography. SDS-PAGE profile showed denatured molecular weights of 33 and 67 kDa for the Bsu2413I and 39 and 67 kDa for the Bfi2411I. The partially purified Bsu2413I enzyme restricted pBR322 DNA into two fragments of 3250 and 1100 bp whereas Bfi2411I enzyme restricted pBR322 DNA into two fragments of 3500 and 800 bp. The activity of both endonucleases was assayed at 55 degrees C and they required Mg+2 as cofactor like other type II restriction endonucleases.     

Molecular markers to discriminate among four pest species of Helicoverpa (Lepidoptera: Noctuidae)

The four significant pest species in the Helicoverpa genus (H. armigera, H. assulta, H. punctigera and H. zea) are morphologically similar and can only be reliably distinguished through dissection of adult genitalia. Two partial regions of the mitochondrial DNA (mtDNA), the cytochrome oxidase subunit I (COI) and the cytochrome b (Cyt b) genes were amplified by PCR and digested with restriction endonucleases. The restriction patterns, generated by the endonucleases BstZ17I and HphI, demonstrated reliable differentiation of the four Helicoverpa pest species. This technique is fast, reliable and effective at distinguishing specimens irrespective of their life stages and offers support to conventional taxonomic differentiation based on morphological characters.     

Restriction map of permuted DNA of Erwinia carotovora temperate bacteriophage 59

The cyclic permutation and terminal redundancy were found in the genomes of Erwinia carotovora temperate bacteriophage 59 by electron microscopic studies. The headful mechanism for bacteriophage DNA cleavage and packaging during the phage morphogenesis was confirmed by the restriction analysis technique. Restriction map of the bacteriophage 59 DNA was constructed for restriction endonucleases BamHI, Bg1II, Eco31, Sa1I, SmaI, EcoRI.     

A method for detecting new strains producing DNA modification and restriction enzymes--isoschizomers and isomethylomers of known restrictases and methylases

The paper describes a technique for the detection of new strains producing enzymes which mediate DNA modification and restriction, and isoschizomers and isomethylomers of the known restriction endonucleases and methylases. Three Bacillus subtilis strains whose DNA carries a BamH1 modification have been found. Two of these strains exert the restrictase activity with an R BamH1 specificity.     

Assessing the DNA methylation status of single cells with the comet assay

The comet assay (single cell gel electrophoresis) is a cost-effective, sensitive, and simple technique that is traditionally used for analyzing and quantifying DNA damage in individual cells. The aim of this study was to determine whether the comet assay could be modified to detect changes in the levels of DNA methylation in single cells. We used the difference in methylation sensitivity of the isoschizomeric restriction endonucleases HpaII and MspI to demonstrate the feasibility of the comet assay to measure the global DNA methylation level of individual cells. The results were verified with the well-established cytosine extension assay. We were able to show variations in DNA methylation after treatment of cultured cells with 5-azacytidine and succinylacetone, an accumulating metabolite in human tyrosinemia type I.     

Restriction Endonucleases from Invasive Neisseria gonorrhoeae Cause Double-Strand Breaks and Distort Mitosis in Epithelial Cells during Infection

The host epithelium is both a barrier against, and the target for microbial infections. Maintaining regulated cell growth ensures an intact protective layer towards microbial-induced cellular damage. Neisseria gonorrhoeae infections disrupt host cell cycle regulation machinery and the infection causes DNA double strand breaks that delay progression through the G2/M phase. We show that intracellular gonococci upregulate and release restriction endonucleases that enter the nucleus and damage human chromosomal DNA. Bacterial lysates containing restriction endonucleases were able to fragment genomic DNA as detected by PFGE. Lysates were also microinjected into the cytoplasm of cells in interphase and after 20 h, DNA double strand breaks were identified by 53BP1 staining. In addition, by using live-cell microscopy and NHS-ester stained live gonococci we visualized the subcellular location of the bacteria upon mitosis. Infected cells show dysregulation of the spindle assembly checkpoint proteins MAD1 and MAD2, impaired and prolonged M-phase, nuclear swelling, micronuclei formation and chromosomal instability. These data highlight basic molecular functions of how gonococcal infections affect host cell cycle regulation, cause DNA double strand breaks and predispose cellular malignancies.     

Restriction endonucleases and their applications

Restriction endonucleases are deoxyribonucleases which cleave double-stranded DNA into fragments. With only one exception, all restriction endonucleases recognize short, non-methylated DNA sequences. Restriction endonucleases can be divided into two groups based on the position of the cleavage site relative to the recognition sequence. Class I restriction endonucleases cleave double-stranded DNA at positions outside the recognition sequence and generate fragments of random size. The cleavage sites of Class II restriction endonucleases are located, in most cases, within the recognition sequence. Most of the Class II restriction endonucleases recognize 4, 5, or 6 base pair palindromes and generate fragments with either flush ends or staggered ends. DNA fragments with staggered ends contain 3, 4, or 5 nucleotide single-stranded tails called ‘sticky ends’. DNA fragments produced by Class II restriction endonuclease cleavage can be separated on gels according to their molecular weight. The fragments can be isolated from the gel and used for sequence analysis to elucidate genetic information stored in DNA. Further, an isolated fragment can be inserted into a small extrachromosomal DNA, e.g. plasmid, phage or viral DNA, and its replication and expression can be studied in clones of prokaryotic or eukaryotic cells. Restriction endonucleases and cloning technology are powerful modern tools for attacking genetic problems in medicine, agriculture and industrial microbiology.     

Diversity of DNA methylation pattern and total DNA restriction pattern in symbiotic Nostoc

Attempts were made to use total DNA restriction patterns and the response of purified DNA to treatment with restriction endonucleases to characterize several symbiotic Nostoc strains which had been isolated from different host plants cultivated in Italy. Among 27 restriction endonucleases tested, several did not cut any DNA and no significant variation in the susceptibility of the genomes to DNA restriction was seen among the strains. Therefore the Nostoc strains could not be separated into groups based on their different susceptibilities to the action of restriction endonucleases. However, in studies of total DNA restriction patterns, the restriction endonucleases BfrI and HpaI gave unique band patterns for each cyanobacterial isolate. Different profiles were even found in strains isolated from host plants belonging to the same species. The results do not support any definition of symbiotic Nostoc genomic groups or species and show that a tight specificity between the host plant and the cyanobacterium might not exist in the symbiotic associations involving Nostoc.     

Type I restriction endonucleases are true catalytic enzymes

Type I restriction endonucleases are intriguing, multifunctional complexes that restrict DNA randomly, at sites distant from the target sequence. Restriction at distant sites is facilitated by ATP hydrolysis-dependent, translocation of double-stranded DNA towards the stationary enzyme bound at the recognition sequence. Following restriction, the enzymes are thought to remain associated with the DNA at the target site, hydrolyzing copious amounts of ATP. As a result, for the past 35 years type I restriction endonucleases could only be loosely classified as enzymes since they functioned stoichiometrically relative to DNA. To further understand enzyme mechanism, a detailed analysis of DNA cleavage by the EcoR124I holoenzyme was done. We demonstrate for the first time that type I restriction endonucleases are not stoichiometric but are instead catalytic with respect to DNA. Further, the mechanism involves formation of a dimer of holoenzymes, with each monomer bound to a target sequence and, following cleavage, each dissociates in an intact form to bind and restrict subsequent DNA molecules. Therefore, type I restriction endonucleases, like their type II counterparts, are true enzymes. The conclusion that type I restriction enzymes are catalytic relative to DNA has important implications for the in vivo function of these previously enigmatic enzymes.     

Molecular mechanisms involved in the production of chromosomal aberrations

Chinese hamster ovary cells (CHO cells) and mouse fibroblasts (PG 19) were permeabilized with inactivated Sendai virus, treated with different types of restriction endonucleases (Eco RV, Pvu II, Bam HI, Sma I, Asu III, Nun II), and studied for the occurrence of chromosomal aberrations at different times following treatment. The pattern of chromosomal aberrations observed was similar to that induced by ionizing radiations. Restriction endonucleases that induce blunt double-strand breaks (Eco RV, Pvu II) were more efficient in inducing chromosomal aberrations than those that induce breaks with cohesive ends (Bam HI, Nun II, Asu III). Ring types were very frequent among the aberrations induced by restriction enzymes. Cytosine arabinoside, an inhibitor of DNA repair, was found to increase the frequencies of aberrations induced by restriction enzymes, indicating its effect on ligation of double-strand breaks. The relevance of these results to the understanding of the mechanisms of chromosomal aberration formation following treatment with ionizing radiations is discussed.     

Alteration of apparent restriction endonuclease recognition specificities by DNA methylases.

An in vitro method of altering the apparent cleavage specificities of restriction endonucleases was developed using DNA modification methylases. This method was used to reduce the number of cleavage sites for 34 restriction endonucleases. In particular, single-site cleavages were achieved for Nhe I in Adeno-2 DNA and for Acc I and Hinc II in pBR322 DNA by specifically methylating all but one recognition sequence.     

Screening for restriction endonucleases in methane-oxidizing bacteria.

51 methane-oxidizing bacteria strains such as Methylomonas methanica, M. rubra, Methylococcus capsulatus, M. thermophilus, M. luteus, M. ucrainicus, M. whittenburyi, Methylosinus trichosporium, M. sporium, Methylocystis parvus isolated from various ecological niches and geographical regions of the Ukraine and also the strains received from R. Whittenbury and Y. Heyer were screened for restriction endonucleases. Type II restriction endonucleases were detected in IMV B-3112 (= 12 b), IMV B-3027 (= 26), IMV B-3019 (= 9 c), IMV B-3017 (= 17 c), IMV B-3226 (= 26 v), IMV B-3033 (= Y), IMV B-3100 (= 100) and IMV B-3494 (= 1E494). The results obtained were indicative of relatively high frequency of restriction enzymes occurrence in methane-oxidizing bacteria. There were Kpn I (Asp 7181) restriction endonuclease isoschizomers in crude extracts of IMV B-3112, B-3017, B-3019, B-3027 isolated from fresh-water silt as well as in IMV B-3226 strain isolated from waste-water silt. Although these isolates had bee previously considered as untypical strains of M. ucrainicus, more detailed study of their properties allowed placing them with Methylovarius luteus (= Methylococcus luteus). IMV B-3494 strain was identified as Methylococcus capsulatus. Strain IMV B-3033 had earlier been allocated to Methylovarius whittenburyi (= Methylococcus whittenburyi). Specificity of restriction endonucleases of this strain was not tested. Therefore, for the first time restriction endonucleases were detected in methane-oxidizing bacteria. 8 strains (3 species) among 51 strains (13 species) were found to produce restriction endonucleases displaying three different types of specificity in the least. Producers of restriction endonucleases having Kpn I (Asp 7181) specificity were isolated from different water and silt samples of the Dnieper flood-land more than 20 years ago.     

Cleavage of methylated CCCGGG sequences containing either N4-methylcytosine or 5-methylcytosine with MspI, HpaII, SmaI, XmaI and Cfr9I restriction endonucleases.

The cleavage specificity of R.Cfr9I was determined to be C decreases CCGGG whereas the methylation specificity of M.Cfr9I was C4mCCGGG. The action of MspI, HpaII, SmaI, XmaI and Cfr9I restriction endonucleases on an unmethylated parent d(GGACCCGGGTCC) dodecanucleotide duplex and a set of oligonucleotide duplexes, containing all possible substitutions of either 4mC or 5mC for C in the CCCGGG sequence, was investigated. It was found that 4mC methylation, in contrast to 5mC, renders the CCCGGG site resistant to practically all the investigated endonucleases. The cleavage of methylated substrates with restriction endonucleases is discussed.