Purification, properties and specificity of an endonuclease from Agropyron elongatum seedlings.

An endonuclease was isolated from 5 days old Agropyron elongatum 8x = Elytrigia turcica McGuire seedlings. The enzyme was purified by means of ammonium sulfate fractionation, DEAE-cellulose and Heparin Sepharose column. The final preparation, named nuclease A, gave a single band after silver staining had followed SDS-electrophoresis that was identified with nuclease activities. The enzyme also showed a single band after activity staining on gel polymerized in the presence of heat denatured DNA (ssDNA)/RNA. The Mr of native enzyme was 36 and the enzyme's moiety consisted of one polypeptide chain. Nuclease A activity was stimulated in the presence of Zn(2+) and was moderately reduced by NaCl yet strongly by spermine. The enzyme had pH optimum 5.5 and isoelectric point (pI) 4.7. It hydrolyzed the nucleic acids in the order ssDNA > dsDNA > or = RNA; hence it was classified as a plant nuclease type I (EC 3.1.30.2). Synthetic homopolyribonucleotides were hydrolyzed in the order polyU > polyI > or = polyA > polyG > polyC. Nuclease A nicked the supercoiled plasmid DNA while it was incapable of hydrolyzing dinucleoside monophosphates. With regard to nuclease A base linkage specificity towards a synthetic 5'-(32)P labeled deoxydecanucleotide [5'-(32)P]CCTGGCAGTT, the enzyme firstly exhibited a preference to Ap downward arrow G bond and then to Gp downward arrow T, Cp downward arrow A and Gp downward arrow G bonds while it was incapable of hydrolyzing the Cp downward arrow C bond. The substrate's products of nuclease A were oligonucleotides with the monoesterified phosphate at the 3' position. Nuclease A may perform a crucial function in the metabolism of nucleic acids during seedling growth and could be used as a biochemical tool for analysis of nucleic acids structure.     

DNA substrate specificity and cleavage kinetics of an archaeal homing-type endonuclease from Pyrobaculum organotrophum.

The protein encoded by intron 1 of the single 23S rRNA gene of the archaeal hyperthermophile Pyrobaculum organotrophum was isolated and shown to constitute a homing-type DNA endonuclease, I-PorI. It cleaves the intron- 23S rDNA of the closely related organism Pyrobaculum islandicum near the site of intron insertion in Pb.organotrophum. In contrast, no endonuclease activity was detected for the protein product of intron 2 of the same gene of Pb.organotrophum which, like I-PorI, carries the LAGLI-DADG motif, common to group I intron-encoded homing enzymes. I-PorI cleaves optimally at 80 degrees C, with kcat and Km values of about 2 min-1 and 4 nM, respectively, and generates four nucleotide 3'-overhangs and 5'-phosphates. It can cleave a 25 base pair DNA fragment encompassing the intron insertion site. A mutation-selection study established the base pair specificity of the endonuclease within a 17 bp region, from positions -6 to +11 with respect to the intron-insertion site. Four of the essential base pairs encode the sequence involved in the intron-exon interaction in the pre-rRNA that is required for recognition by the RNA splicing enzymes. Properties of the enzyme are compared and contrasted with those of eucaryotic homing endonucleases.     

A type II restriction endonuclease with an eight nucleotide specificity from Streptomyces fimbriatus.

A new site-specific endonuclease, Sfi I, has been isolated from Streptomyces fimbriatus . This is the first report of a type II restriction endonuclease whose recognition specificity requires eight nucleotides. Sfi I cleaves the sequence, GGCCNNNN / NGGCC , symmetrically to produce a three base, 3' extension.     

A site-specific endonuclease from Pseudomonas aeruginosa

Pael, a new restriction endonuclease from Pseudomonas aeruginosa clinical strain was isolated and characterized. It recognizes and cleaves the sequence 5-GCATGC-3 generating DNA fragments with 3-tetranucleotide sticky ends. DNAs of pBR322, SV40 and bacteriophage have one, two and six Pael recognition sites, respectively.Seventytwo strains of Pseudomonas, Clostridium, Escherichia coli, Shigella, Proteus and Saccharomyces were screened for the presence of site-specific endonucleases. Here we describe the Pael restriction enzyme found in Pseudomonas aeruginosa; other data will be published elsewhere.Earlier Hinkle and Miller isolated from P. aeruginosa a PaeR7 restriction endonuclease recognizing and cleaving a sequence 5-CTCGAG-3 (1). Sequence analysis of DNAs cleaved by PaeI shows that the enzyme is the isoschizomer of SphI (2).     

A second type II restriction endonuclease from Thermus aquaticus with an unusual sequence specificity.

A type II restriction endonuclease activity free of TaqI was prepared from Thermus Aquaticus YT. The fraction contains two endonucleolytic components with apparently different specificities, however the major activity is sufficiently dominant to allow partial digestion analysis of the position of recognition sites. A precise determination of the location of cleavage sites in pBR322 DNA and a computer-aided search for regions of homology in the vicinity of the cut sites indicate that this enzyme recognizes the nonpalindromic sequences GACCGA or CACCCA. Other related sequences are not cleaved, in particular, GACCCA and CACCGA, indicating that the enzyme requires the identity of nucleotides in the first and fifth positions, a type of specificity that has not been previously reported. The position of cleavage is located outside of the site and is represented as: (Formula: see text).     

DNA structure specificity of Rap endonuclease.

The Rap protein of phage lambda is an endonuclease that nicks branched DNA structures. It has been proposed that Rap can nick D-loops formed during phage recombination to generate splice products without the need for the formation of a 4-strand (Holliday) junction. The structure specificity of Rap was investigated using a variety of branched DNA molecules made by annealing partially complementary oligo-nucleotides. On Holliday junctions, Rap endonuclease shows a requirement for magnesium or manganese ions, with Mn(2+)supporting 5-fold more cleavage than Mg(2+). The location of endonuclease incisions was determined on 3'-tailed D-loop, bubble, flayed duplex, 5'-flap and Y junction DNA substrates. In all cases, Rap preferentially cleaves at the branch point of these molecules. With a flayed duplex, incisions are made in the duplex adjacent to the single-strand arms. Comparison of binding and cleavage specificities revealed that Rap is highly structure-specific and exhibits a clear preference for 4- and 3-stranded DNA over Y and flayed duplex DNA. Almost no binding or cleavage was detected with duplex, partial duplex and single-stranded DNA. Thus Rap endonuclease shows a bias for structures that resemble D-loop and Holliday junction recombination intermediates.     

Substrate specificity of HeLa endonuclease R. A G-specific mammalian endonuclease

We examined the substrate specificity of endonuclease R (endo R) a mammalian endonuclease that cleaves G.C-rich DNA sequences. The best substrates for double-stranded cleavage were homopolymeric stretches of poly(dG).poly(dC). Plasmids which contain other G-rich sequences were also cleaved but at a reduced frequency. These included the telomeric sequences, d(G4T2) and d(G2-6A), which were cleaved at approximately one-third the frequency of d(G)n.d(C)n. The alternating copolymer d(GA) and the terminal sequences of adeno-associated virus d(G1-3T/A) were also cut. Poly(dA).poly(dT) and the alternating copolymer d(GC)n were not detectably cleaved. Although endo R has a nicking activity which converts supercoiled plasmids to nicked circular DNA, the nicking activity is random with respect to plasmid sequences. Specific cleavage of G-rich sequences appears to occur by a concerted double-stranded mechanism. The cleavage pattern within the G-rich runs suggests that cleavage can occur anywhere within the G-rich region. Product ligation experiments indicate that a limited number of cleavage events (1-2) occur/molecule. Inasmuch as the best substrates for endo R are d(G)n.d(C)n and telomeric sequences, we suggest that endo R may directly recognize and cleave DNA that contains G.G base pairing.     

Identification and characterisation of novel human Y-chromosomal microsatellites from sequence database information

1.33 Mb of sequence from the human Y chromosome was searched for tri- to hexanucleotide microsatellites. Twenty loci containing a stretch of eight or more repeat units with complete repeat sequence homogeneity were found, 18 of which were novel. Six loci (one tri-, four tetra- and one pentanucleotide) were assembled into a single multiplex reaction and their degree of polymorphism was investigated in a sample of 278 males from Pakistan. Diversities of the individual loci ranged from 0.064 to 0.727 in Pakistan, while the haplotype diversity was 0.971. One population, the Hazara, showed particularly low diversity, with predominantly two haplotypes. As the sequence builds up in the databases, direct methods such as this will replace more biased and technically demanding indirect methods for the isolation of microsatellites.     

Purification, properties and specificity of the restriction endonuclease from Bacillus stearothermophilus.

The restriction endonuclease BstI was purified from 70kg of Bacillus stearothermophilus. The final product is at least 97% pure as judged by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis; this major protein species co-migrates with the enzyme activity on native polyacrylamide-gel electrophoresis and isoelectric focusing. Pure restriction endonuclease BstI has a subunit mol.wt. of 26,000 and is probably a loosely associated dimer. The enzyme shows maximum activity at pH values between 7 and 9.5, and in the presence of 0.5-2mM-Mg2+. NaCl inhibits the restriction enzyme activity. Restriction endonuclease BstI cleaves DNA in a position identical with that cleaved by endonuclease BamHI (for Bacillus amyloliquefaciens), i.e.: (formula: see text). In the presence of high concentrations of enzyme, DNA cleavage occurs at secondary sites. This side-specificity is enhanced by the addition of glycerol. Preliminary studies indicate that these sites are of the type: (formula: see text).     

Characterization of a novel endonuclease from Crithidia fasciculata.

A new endonuclease activity has been identified in whole cell lysates of the trypanosomatid Crithidia fasciculata. This activity, termed endonuclease A (Endo A), introduces single-strand breaks at highly preferred sites in double stranded DNA substrates Physical analysis of this enzyme indicates that it has a sedimentation coefficient S20,W of 4.9 and a Stokes radius of 59A and thus, a native molecular weight of 125,000 and a frictional coefficient of 1.8. A monomeric structure is suggested for the enzyme based on the recovery of Endo A activity associated with a polypeptide with a molecular weight of 116,000-120,000, following electrophoresis on sodium dodecyl sulfate polyacrylamide gels. Endo A shows an absolute requirement for Mg2+ or Mn2+ and exhibits activity over a broad pH and temperature range, with optimal conditions for activity at pH 8.0 and 30 degrees C.     

The SalGI restriction endonuclease. Enzyme specificity.

We have analysed the kinetics of DNA cleavage in the reaction between the SalGI restriction endonuclease and plasmid pMB9. This reaction is subject to competitive inhibition by DNA sequences outside the SalGI recognition site; we have determined the Km and Vmax. for the reaction of this enzyme at its recognition site and the KI for its interaction at other DNA sequences. We conclude that the specificity of DNA cleavage by the enzyme is only partly determined by the discrimination it shows for binding at its recognition sequence compared with binding to other DNA sequences.     

Molecular cloning, characterisation and ligand-bound structure of an azoreductase from Pseudomonas aeruginosa

The gene PA0785 from Pseudomonas aeruginosa strain PAO1, which is annotated as a probable acyl carrier protein phosphodiesterase (acpD), has been cloned and heterologously overexpressed in Escherichia coli. The purified recombinant enzyme exhibits activity corresponding to that of azoreductase but not acpD. Each recombinant protein molecule has an estimated molecular mass of 23,050 Da and one non-covalently bound FMN as co-factor. This enzyme, now identified as azoreductase 1 from Pseudomonas aeruginosa (paAzoR1), is a flavodoxin-like protein with an apparent molecular mass of 110 kDa as determined by gel-filtration chromatography, indicating that the protein is likely to be tetrameric in solution. The three-dimensional structure of paAzoR1, in complex with the substrate methyl red, was solved at a resolution of 2.18 A by X-ray crystallography. The protein exists as a dimer of dimers in the crystal lattice, with two spatially separated active sites per dimer, and the active site of paAzoR1 was shown to be a well-conserved hydrophobic pocket formed between two monomers. The paAzoR1 enzyme is able to reduce different classes of azo dyes and activate several azo pro-drugs used in the treatment of inflammatory bowel disease (IBD). During azo reduction, FMN serves as a redox centre in the electron-transferring system by mediating the electron transfer from NAD(P)H to the azo substrate. The spectral properties of paAzoR1 demonstrate the hydrophobic interaction between FMN and the active site in the protein. The structure of the ligand-bound protein also highlights the pi-stacking interactions between FMN and the azo substrate.     

Identification and characterisation of a novel conserved outer membrane protein from Neisseria meningitidis

We have identified a homologue of the adhesin AIDA-I of Escherichia coli in Neisseria meningitidis. This gene was designated nhhA (Neisseria hia homologue), as analysis of the complete coding sequence revealed that it is more closely related to the adhesins Hia and Hsf of Haemophilus influenzae. The sequence of nhhA was determined from 10 strains, and found to be highly conserved. Studies of the localisation by Western immunoblot analysis of total cell proteins and outer membrane complex preparations and by immunogold electron microscopy revealed that NhhA is located in the outer membrane. A strain survey showed that nhhA is present in 85/85 strains of N. meningitidis representative of all the major disease-associated serogroups, based on Southern blot analysis. It is expressed in the majority of strains tested by Western immunoblot.     

Identification and characterisation of an androgen receptor from zebrafish Danio rerio

Androgens play key roles in vertebrate sex differentiation, gonadal differentiation and sexual behaviour. The action of androgens is primarily mediated through androgen receptors (ARs). The present study describes the isolation, sequencing and initial characterisation of an androgen receptor from zebrafish Danio rerio. The predicted protein of 868 residues has an estimated calculated molecular weight of 96 kDa. The amino acid sequence of the zebrafish AR (zfRA) shows high homology with other vertebrate ARs. The highest overall similarity was 82% to ARs from fathead minnow (Pimephales promelas) and goldfish (Carassius auratus). Binding assays with zfAR demonstrated high affinity, saturable, single class binding site, with the characteristics of an androgen receptor. Saturation experiments along with subsequent Scatchard analysis determined that the Kd of the zfAR for 3H-testosterone was 2 nM. Androgen binding affinities in competition with 3H-testosterone were: 5alpha-dihydrotestosterone>11-ketotestosterone>testosterone>androstenedione. The deletion of 12 amino acids (zfARd12) in the ligand binding domain of zfAR resulted in impaired binding to the receptor. Therefore, it was not possible to determine Kd for the zfARd12. The characterisation of this zfAR provides a new perspective for understanding the mechanisms underlying androgen actions in a model vertebrate species commonly used for studies investigating potential endocrine disrupters.     

Identification, characterisation and specificity of a cell wall lytic enzyme from Lactobacillus fermentum BR11

Screening of a genomic library with an antiserum raised against whole Lactobacillus fermentum BR11 cells identified a clone expressing an immunoreactive 37-kDa protein. Analysis of the 3010-bp DNA insert contained within the clone revealed four open reading frames (ORFs). One ORF encodes LysA, a 303 amino acid protein which has up to 35% identity with putative endolysins from prophages Lj928 and Lj965 from Lactobacillus johnsonii and Lp1 and Lp2 from Lactobacillus plantarum as well as with the endolysin of Lactobacillus gasseri bacteriophage Phiadh. The immunoreactive protein was shown to be encoded by a truncated ORF downstream of lysA which has similarity to glutamyl-tRNA synthetases. The N-terminus of LysA has sequence similarity with N-acetylmuramidase catalytic domains while the C-terminus has sequence similarity with putative cell envelope binding bacterial SH3b domains. C-terminal bacterial SH3b domains were identified in the majority of Lactobacillus bacteriophage endolysins. LysA was expressed in Escherichia coli and unusually was found to have a broad bacteriolytic activity range with activity against a number of different Lactobacillus species and against Lactococcus lactis, streptococci and Staphylococcus aureus. It was found that LysA is 2 and 8000 times more active against L. fermentum than L. lactis and Streptococcus pyogenes, respectively.