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.     

Molecular characterization of the porcine MHC class I region

A porcine cosmid library was screened with a human MHC class I cDNA. Four positive clones were isolated and mapped with different restriction endonucleases. Altogether nine SLA class I genes were identified and their positions located within restriction maps. Sizes of class I homologous DNA sequences varied between 3600 and 5800bp. The distances between these regions ranged from 11900 to 22200bp.     

Taq52 I, a novel and thermostable type II restriction endonuclease from the genus Thermus, recognising the pentanucleotide sequence GC(A or T)GC and cleaving DNA between the first and second bases of the recognition sequence: G decreased or reduced C(A or T)GC.

127 isolates of the genus Thermus, from neutral and alkaline hot water springs on four continents, have been screened for the presence of restriction endonuclease activity. An isolate (YS52) from Yellowstone National Park, USA, showed a high level of restriction endonuclease activity when a cell free extract was incubated with lambda phage DNA at 65 degrees C. A Type II restriction endonuclease (Taq52 I) has been partially purified from this isolate and the recognition and cleavage site determined. Taq52 I has a novel interrupted palindromic tetranucleotide recognition sequence GCWGC, where W can be either adenine (A) or thymine (T). It hydrolyses the phosphodiester bond in both strands of the substrate between the first and second bases of the recognition sequence: 5'G decreased or reduced CWGC3', producing three-base 5'-OH overhangs (sticky ends). The enzyme has a pH optimum of 7.0, requires 8 mM MgCl2 for maximum activity and is thermally stable, retaining full enzyme activity following incubation at 79 degrees C for 10 min. Taq52 I not only represents a new addition to the Type II restriction endonucleases, but also increases the small list of thermostable restriction endonucleases.     

Restriction endonuclease digestion patterns of harvest mice (Reithrodontomys) chromosomes: a comparison to G-bands,C-bands,and in situ hybridization

Constitutive heterochromatin of a karyotypically conserved species of harvest mouse was compared to that of three karyotypically derived species of harvest mice by examining banding patterns produced on metaphase chromosomes with three restriction endonucleases (EcoRI, MboI and PstI). Banding patterns produced by two of these restriction endonucleases (EcoRI and MboI) were compared to published G- and C-banded karyotypes and in situ hybridization of a satellite DNA repeat for these taxa. The third restriction endonuclease (PstI) did not produce a detectable pattern of digestion. For the most part, patterns produced by EcoRI and MboI can be related to C-banded chromosomes and in situ hybridization of satellite DNA sequences. Moreover, digestion with EcoRI reveals bands not apparent with these other techniques, suggesting that restriction endonuclease digestion of metaphase chromosomes may provide additional insight into the structure and organization of metaphase chromosomes. The patterns produced by restriction endonuclease digestion are compatible with the chromosomal evolution of these taxa, documenting that in the highly derived taxa not only are the chromosomes rearranged but the abundance of certain sequences is highly variable. However, technical variation and difficulty in producing consistent results even on a single slide with some restriction endonucleases documents the problems associated with this method.     

Restriction mapping of plasmid pSa1, isolated from Streptomyces albus G strain

A novel plasmid designated pSa1 has been isolated from Streptomyces albus G strain producing SalGI restriction endonuclease. Molecular weight of the plasmid is 3.4 +/- 0.2 mD. The action of 12 restriction endonucleases on the plasmid DNA was studied. Restriction map of pSa1 DNA was established for SmaI, HindII, XbaI and KpnI endonucleases.     

Molecular Cloning and Expression of Cellulase Genes from Ruminococcus albus 8 in Escherichia coli Bacteriophage lambda

A genomic library of Ruminococcus albus 8 DNA was constructed by using the Escherichia coli bacteriophage lambdaDASH. Recombinants were screened for cellulolytic activity by plating in soft agar (0.7%) overlays containing either 1% (wt/vol) carboxymethyl cellulose (CMC), 4-methylumbelliferyl-beta-d-cellobioside (MUC, 1 mg/ml), or 1% (wt/vol) Ostazin brilliant red-hydroxyethyl cellulose (OBR-HEC). One hundred and three recombinant phage exhibiting activity against OBR-HEC were found, and these fell into different classes based on the size of the zone of hydrolysis. Twenty-one recombinant phage exhibiting activity against CMC and 19 recombinant phage exhibiting activity against MUC were isolated. Four OBR-HEC, five CMC, and seven MUC clones were further analyzed by restriction endonuclease mapping and cellulase substrate specificity to identify unique clones and to determine their cellulase type. Three different clone types representing endoglucanase activity were identified. Three clones that appeared to encode exoglucanase type activity and four clones that had a mixed specificity, including beta-glucosidase activity, were also identified.     

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.     

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.     

Construction of a genome library from a beta-0-thalassemic individual from Ferrara: characterization of clones containing beta globin genes

A library of genomic DNA was prepared from a patient with beta o Ferrara thalassaemia: random human DNA fragments (15 - 20 Kb) have been joined to phage lambda vectors and cloned has viable phage particles (4). 4x10(5) phages have been screened for their content in beta globin gene sequences, using a human beta cDNA plasmid (5) as hybridization probe. Five positive clones have been isolated and characterized by restriction endonuclease cleavage analysis and by the hybridization experiments. The results obtained allow the precise localization of the human fragments inside the beta like globin gene cluster (6). The comparison of the thalassaemic fragments with the normal DNA (6 - 7) shows two different restriction endonuclease sites, for Xba I and Eco RI respectively, downstream from the human beta globin gene.     

Site-specific restriction endonucleases in Bacillus licheniformis

Abstract We systematically studied site-specific restriction endonucleases in Bacillus licheniformis strains and detected endonuclease activity in 25 of 217 strains tested. Three different activities were obtained. One of these activities detected in 21 strains was the most representative within the species and produced a banding pattern, after digestion of A DNA, identical to that seen with Cla I. Two other strains isolated from soil samples from China and USA were found to produce a DNA-cleaving enzyme with the same recognition sequence as Bsa I. One producer strain, isolated from a Peruvian soil sample, showed to possess a mixture of two isoschizomers, Cla I and Bsa I. Finally, one strain produced an endonuclease activity, not previously described in B. licheniformis , that showed the same recognition sites as Bsu 361.     

Two new site-specific endonucleases from Staphylococcus species strain D5

Staphylococcus species strain D5 containing two site-specific endonucleases, SspD5 I and SspD5 II, was found during screening of a bacterial strain collection from soil. These endonucleases were purified to functional homogeneity by sequential chromatography. Site-specific endonuclease SspD5 I recognizes sequence 5;-GGTGA(8N/8N) downward arrow-3; on DNA. Unlike Hph I, it cleaves DNA at a distance of 8 nucleotides from the recognized sequence on both chains producing blunt-end DNA fragments, while endonuclease Hph I cleaves DNA forming mononucleotide 3;-OH protruding ends. Thus, endonuclease SspD5 I is a new type II site-specific endonuclease and a neoschizomer of endonuclease Hph I. The advantage of this new endonuclease is that the blunt-end DNA products of this enzyme can be inserted without additional treatment into vector DNAs cleaved with endonucleases yielding DNA blunt-ends. Endonuclease SspD5 II recognizes site 5'-ATGCA T-3' and thus is an isoschizomer of endonuclease Nsi I. The molecular mass of SspD5 I is about 35 kD and that of SspD5 II is 40 kD. The enzymes exhibit maximal activity at 37 degrees C. The optimal buffer for the reaction is HRB (10 mM Tris-HCl, pH 7.5, 10 mM MgCl2, 100 mM NaCl, and 1 mM dithiothreitol).     

Differential organization of a LINE-1 family in Indian pygmy field mice

Southern blot hybridization analysis of genomic DNAs digested with restriction endonuclease EcoR I and Ava II from Mus musculus domesticus, Mus booduga and Mus terricolor with a cloned repetitive DNA fragment of Mus booduga as a probe showed difference in restriction pattern of this DNA in these three species. Further Southern analysis of the BamH I digested genomic DNAs from these species hybridized with cloned DNA fragment as a probe and sequencing of the cloned DNA revealed that this 252 bp cloned DNA fragment is a part of BamHI repeat element of genus Mus and is 87% homologous to the contiguous portion of the Mus musculus domesticus LINE-1 element. The species specific fragment pattern generated by different restriction endonucleases using this DNA as a probe revealed difference in the organization of LINE-1 repetitive element in the three species of genus Mus.     

Analysis of mitochondrial DNA species in interspecific hybrid somatic cells using restriction endonucleases. Identification of recombinant mtDNA molecules

Interspecific hybrid cells were isolated by fusion between thymidine kinase-deficient (TK⁻) mouse B82 cells and hypoxanthine-guanine-phosphoribosyl-transferase-deficient (HGPRT⁻) rat L6TG cells, and cultivating them in selective medium with hypoxanthine-aminopterin-thymidine (HAT). Karyo-type analysis revealed that they contained both mouse and rat chromosomes. Mitochondrial DNA (mtDNA) species of the hybrid cells were identified by digesting them with three kinds of restriction endonucleases, Hae II, EcoR I and Hpa II. Their restriction endonuclease cleavage patterns indicated that a portion of the mtDNAs was of mouse parent cell origin, while the remainings were recombinant molecules, i.e., part of the rat mtDNA sequence could be detected, but not whole rat mtDNA. The molecular weights of hybrid cell mtDNAs were calculated to be almost the same as that of the parent cells (˜10⁷ D).     

Plasmid localization and cloning of restriction modification genes from Citrobacter freundii 4111 strain]

Over 60 producing strains of restriction endonucleases type II have been found among 500 different strains, mostly Enterobacteriaceae. The strain Citrobacter freundii 4111 produces restriction endonuclease CfrBI, a new isoschisomer of StyI. The genes of the restriction-modification system CfrBI were located on the multicopy plasmid pZE8 containing the Co1E1-type replicon and cloned to E. coli K802. The deletion variant of 3.2-kb pZE8 which contains intact restriction-modification and a DNA fragment responsible for autonomous plasmid replication was selected among the recombinant plasmids. The strain with higher R. CfrBI production (at least 10,000,000 U/g cells, which is 500-fold higher than the wild strain) was constructed.     

Molecular cloning of the complete Epstein-Barr virus genome as a set of overlapping restriction endonuclease fragments.

A complete collection of fragments of Epstein-Barr virus DNA, obtained by cleavage with restriction endonuclease Eco RI, has been cloned. Fourteen different internal fragments of the virus genome, derived from linear virion DNA of the B95-8 strain, and sequences corresponding to the terminal regions of virion DNA, derived from intracellular circular EBV DNA isolated from 895-8 cells, were cloned. Sizes of fragments were determined by agarose gel electrophoresis and their sum leads to an estimated molecular weight of 110 x 10(6) for virion DNA. Large Eco RI DNA fragments of special interest were also cloned in cosmids using another source of EBV DNA, that is, to circular viral DNA derived from Raji cells. In order to provide a set of overlapping sequences, all the 29 internal Bam HI fragments of B95-8 virion DNA were cloned in pBR322. The map location within the viral genome of each cloned DNA fragment was identified by hybridizing to blots of virion DNA cleaved with several different restriction endonucleases.     

Netropsin, distamycin A, bis-netropsins as selective inhibitors of restrictases and DNAse I

The simultaneous analysis of DNAase I "footprinting" data and restriction endonucleases inhibition data was performed on the same DNA end-labelled fragment. The inhibition induced by netropsin, a number of bis-netropsins and distamycin A was investigated. These experiments led us to the following conclusions. The restriction endonucleases inhibition by the ligands is caused by the ligand molecules binding in the close vicinity to the restriction endonuclease recognition sequence. The zone of +/- 4 bp from the center of the restriction endonuclease recognition sequence can be defined as the zone of the influence of the bounded ligand on the restriction endonuclease. But in this case the intersection of recognition sequence and the binding site occupied by a single ligand molecule is not sufficient for the inhibition to occur. Restriction endonuclease cutting sites protected by netropsin can be predicted basing upon known nucleotide sequence specificity of netropsin. Netropsin and bis-netropsins show different nucleotide sequence specificity. This fact can be used for selective inhibition of restriction endonucleases.     

Restriction endonuclease digestion patterns of harvest mice (Reithrodontomys) chromosomes: a comparison to G-bands, C-bands, and in situ hybridization.

Constitutive heterochromatin of a karyotypically conserved species of harvest mouse was compared to that of three karyotypically derived species of harvest mice by examining banding patterns produced on metaphase patterns produced by two of these restriction endonucleases (EcoRI and MboI) were compared to published G- and C-banded karyotypes and in situ hybridization of a satellite DNA repeat for these taxa. The third restriction endonuclease (PstI) did not produce a detectable pattern of digestion. For the most part, patterns produced by EcoRI and MboI can be related to C-banded chromosomes and in situ hybridization of satellite DNA sequences. Moreover, digestion with EcoRI reveals bands not apparent with these other techniques, suggesting that restriction endonuclease digestion of metaphase chromosomes may provide additional insight into the structure and organization of metaphase chromosomes. The patterns produced by restriction endonuclease digestion are compatible with the chromosomal evolution of these taxa, documenting that in the highly derived taxa not only are the chromosomes rearranged but the abundance of certain sequences is highly variable. However, technical variation and difficulty in producing consistent results even on a single slide with some restriction endonucleases documents the problems associated with this method.     

Plasmids of the cyanobacterium Synechocystis 6701

Abstract Plasmids were obtained from Synechocystis 6701 using a lysis method that employed a hemicellulase digestion procedure. Eight major bands were observed in the initial preparation. Four of the smaller plasmids were isolated using preparative agarose electrophoresis gels and identified by restriction endonuclease analysis. Chromosomal DNA was screened with 15 restriction enzymes and 6 ( Eco RI, Sst I, Hpa I, Bst EII, Acc I, and Bgl II) were effective. Analysis of DNA fragments from plasmids pSCY 1–4 indicated that each plasmid was unique and that their approximate sizes were 5, 7.5, 13.5 and 15 kb, respectively. Digestion of pSCY 1 and pSCY 4 with Bgl II produced DNA fragments that may be used to construct a conjugation vector for this unicellular cyanobacterium.     

High-throughput fingerprinting of bacterial artificial chromosomes using the snapshot labeling kit and sizing of restriction fragments by capillary electrophoresis

We have developed an automated, high-throughput fingerprinting technique for large genomic DNA fragments suitable for the construction of physical maps of large genomes. In the technique described here, BAC DNA is isolated in a 96-well plate format and simultaneously digested with four 6-bp-recognizing restriction endonucleases that generate 3' recessed ends and one 4-bp-recognizing restriction endonuclease that generates a blunt end. Each of the four recessed 3' ends is labeled with a different fluorescent dye, and restriction fragments are sized on a capillary DNA analyzer. The resulting fingerprints are edited with a fingerprint-editing computer program and contigs are assembled with the FPC computer program. The technique was evaluated by repeated fingerprinting of several BACs included as controls in plates during routine fingerprinting of a BAC library and by reconstruction of contigs of rice BAC clones with known positions on rice chromosome 10.     

Ribosomal DNA repeat unit polymorphism in 49 Vicia species

DNA restriction endonuclease fragment analysis was used to obtain new information on the genomic organization of Vicia ribosomal DNA (rDNA), more particularly among V. faba and its close relatives and the taxa within three (Narbonensis, Villosa, Sativa) species' complexes. Total genomic DNA of 90 accessions representing 49 Vicia species was restricted with 11 enzymes, and the restriction fragments were probed with three ribosomal clones. Twenty-eight repeat unit length classes were identified. The number of length classes (1–2) per accession did not correspond to the number of nucleolar organizing regions (NORs). The number of rRNA genes was independent of the 2C nuclear DNA amount present in the taxon. Each of the 90 accessions had 2 (rarely 1)-4 DraI sites. Those taxa with the same number of DraI sites generally could be distinguished from each other by different configurations. Probing of the DNA samples digested with tetranucleotide recognition restriction endonucleases emphasized differences between divergent spacer regions and enabled relative homologies between the coding regions to be established. Overall, rDNA restriction site variation among the species showed a good correlation with taxonomic classification. The rDNA analysis indicated evolutionary relatedness of the various taxa within the Narbonensis species complex. rDNA diversity within two other species complexes (Villosa, Sativa), on the other hand, was more extensive than expected. With few exceptions, data on the two complexes give evidence of taxon-specific divergences not seen with other approaches. The restriction site variability and repeat length heterogeneity in the rDNA repeat exhibited startling differences between V.faba and its close wild relatives included in the Narbonensis species complex. This analysis provides new evidence that none of the species within the complex can be considered to be putative allies of broad bean.