Two isoforms of Serratia marcescens nuclease. Crystallization and preliminary X-ray investigation of the enzyme.

Two isoforms of an extracellular endonuclease, nucleases Sm1 and Sm2, were purified from culture fluid of Serratia marcescens strain BIO MI by ligand-exchange chromatography on phosphocellulose and DEAE-Toyopearl 650S. The pI-values for nucleases Sm1 and Sm2 were found to be 7.1 and 6.7, respectively. The amino acid analysis and N-terminal amino acid sequencing of the proteins showed a significant degree of homology between the enzymes. The nuclease Sm1 has been crystallized from ammonium sulfate solution by the vapour diffusion technique. The crystals belong to the space group P2(1)2(1)2(1) with unit cell constants a = 69.0, b = 106.7, c = 74.8 A, contain two molecules in an asymmetric unit, packing density Vm = 2.3 A/Da, and diffract to at least 1.5 A resolution. The Pt- and UO2-derivatives of the protein were obtained. Preliminary X-ray investigation of nuclease Sm2 crystals was carried out.     

Isolation and characteristics of intracellular nuclease isoforms from Serratia marcescens]

Two enzyme forms were isolated from the commercial preparation of extracellular endonuclease of Serratia marcescens strain B10 M1. The chromatographic and electrophoretic properties, isoelectric points and N-terminal amino acid residues are different for both enzymes. At the final step of the purification procedure including ion-exchange chromatography on phospho- and DEAE-cellulose columns the yields of nucleases Sm1 and Sm2 were 13% and 25%, respectively. No significant differences were found in the specific activities of nucleases Sm1 and Sm2 (3.6 x 10(6) and 4.0 x 10(6) un. act./mg of protein). A comparative analysis of tryptic nuclease hydrolysate peptides was carried out. The amino acid sequences of some polypeptide segments of the proteins were determined. The structural similarity of the enzyme was established and the amino terminal regions of the proteins were identified. The localization of the disulfide bonds in the molecules of the both nucleases was determined. The similarity of nucleases Sm1 and Sm2 strain B10 M1 to S. marcescens endonucleases obtained from other strains was demonstrated.     

Differential secretion of isoforms of Serratia marcescens extracellular nuclease.

Extracellular secretion of the Serratia marcescens nuclease occurs in a two-step process: (i) rapidly to the periplasm via a signal sequence-dependent pathway and then (ii) slowly to the extracellular growth medium without cell lysis. There are two major isoforms of the nuclease in the culture supernatant of S. marcescens. We have isolated, purified, and determined the sequences of both isoforms. The first isoform, the mature nuclease (Sm2), is the result of signal sequence processing. The second isoform (Sm1) has three additional amino acids missing from the N terminus of the mature nuclease. Sm1 starts to appear extracellularly only during prolonged growth of a culture (16 to 48 h), probably because of cell lysis. However, pulse-chase experiments show that it is made early with Sm2 but is not secreted efficiently.     

The isolation of nucleases Sm1 and Sm2 in preparative amounts and a study of their antigenicity]

Two enzyme forms of endonuclease (Sm 1 and Sm 2) strain B10M1 in 60 and 100 mg respectively have been isolated from the culture fluid Serratia marcescens. The chromatographic and electrophoretic properties and N-terminal amino acid residues are different for both enzymes. The purification procedure consists of dialysis and ion-exchange chromatography on DEAE- and phosphocellulose. The yield of nucleases Sm1 and Sm2 are 14% and 28% respectively. The antigenic differences of nucleases Sm1 and Sm2 have been found by cross immunoenzyme analysis.     

Amino acid sequence and characterization of a nuclease (nuclease Le3) from Lentinus edodes

The fruit body of shiitake (Lentinus edodes) produces two acid nucleases, nuclease Le1 and nuclease Le3, both of which are thought to be candidates for the enzyme that produces a flavorful substance, 5'-GMP, and the primary structure of one of the nucleases, nuclease Le1, has been analyzed by both protein chemistry and gene cloning [Biosci. Biotechnol. Biochem. 64, 948-957 (2000)]. In this study the amino acid sequence of nuclease Le3 was analyzed by protein chemistry and gene cloning. Nuclease Le3 is a glycoprotein that contains 280 amino acid residues, and the molecular mass of the protein moiety of nuclease Le3 is 31,045. The nucleotide sequence of the cDNA and genomic DNA encoding nuclease Le3 revealed the presence of an 18-residue putative signal peptide. Nuclease Le3 contains 170, 108, and 98 amino acid residues that are identical to residues of nuclease Le1, nuclease P1, and nuclease S, respectively. The amino acid residues involved in coordination with Zn2+ atoms in nuclease P1 are all conserved in nuclease Le3. Nuclease Le3 contains 9 half-cystine residues, and 7 of them are located in the same positions as in nuclease Le1.     

Amino acid sequence of nuclease S1 from Aspergillus oryzae

The amino acid sequence of nuclease S1, a nuclease which cleaves both single-stranded DNA and RNA, from Aspergillus oryzae was determined. Reduced and S-carboxymethylated or S-aminoethylated nuclease S1 was digested with Achromobacter protease I, Staphylococcus aureus V8 protease, or endoproteinase Asp-N. Peptides thus obtained were purified by reverse-phase high-performance liquid chromatography and sequenced, and the complete primary structure was established. Nuclease S1 consists of a single peptide chain of 267 amino acid residues bearing N-glycosylated Asns 92 and 228. Five half-cystine residues are present at positions 25, 72, 80, 85, and 216, and the latter four residues are implicated in the formation of disulfide bonds by analogy with those in nuclease P1. Two short stretches of sequences involving His 60 and His 125 are shown to be identical with those involving active site His 119 in bovine ribonuclease A and active-site His 134 in porcine deoxyribonuclease I, respectively.     

Isolation and characterization of nucleases from a clinical isolate of Serratia marcescens kums 3958

Two new extracellular nucleases, nucleases SM1 and SM2, were purified from the culture fluid of S. marcescens kums 3958, a fresh clinical isolate. The purification was carried out by the following steps; ammonium sulfate precipitation, and DEAE-cellulose and Sephadex G-100 column chromatography. At the final step, nucleases SM1 and SM2 were purified about 3,700- and 1,000-fold, respectively. They were free from phosphomonoesterase and phosphodiesterase activities. The pIs were 8.1 and 7.5 for nucleases SM1 and SM2, respectively. The molecular weight was estimated to be 35,000 for both enzymes by SDS-polyacrylamide disc gel electrophoresis. The results of amino acid analyses showed that both the threonine and serine contents were higher in nuclease SM2 than in SM1. Furthermore, nuclease SM1 was more stable than nuclease SM2 at 4 degrees C. The other properties of the two enzymes were similar; pH optimum (8.0), Mg2+ or Mn2+ for activation, and inhibition by chemical reagents such as EDTA and pyrophosphate. No significant difference was found in base specificity between nucleases SM1 and SM2. Both enzymes specifically degraded double-stranded homopolymers, especially poly(I). poly(C), as well as yeast RNA and calf thymus DNA. They hardly degraded, however, single-stranded homopolymers such as poly(dA), poly(G), and poly(U).     

cDNA and deduced amino acid sequence of a mouse DNA repair enzyme (APEX nuclease) with significant homology to Escherichia coli exonuclease III

We purified a mouse DNA repair enzyme having apurinic/apyrimidinic endonuclease, DNA 3'-phosphatase, 3'-5'-exonuclease and DNA 3' repair diesterase activities, and designated the enzyme as APEX nuclease. A cDNA clone for the enzyme was isolated from a mouse spleen cDNA library using probes of degenerate oligonucleotides deduced from the N-terminal amino acid sequence of the enzyme. The complete nucleotide sequence of the cDNA (1.3 kilobases) was determined. Northern hybridization using this cDNA showed that the size of its mRNA is about 1.5 kilobases. The complete amino acid sequence for the enzyme predicted from the nucleotide sequence of the cDNA (APEX nuclease cDNA) indicates that the enzyme consists of 316 amino acids with a calculated molecular weight of 35,400. The predicted sequence contains the partial amino acid sequences determined by a protein sequencer from the purified enzyme. The coding sequence of APEX nuclease was cloned into pUC18 SmaI and HindIII sites in the control frame of the lacZ promoter. The construct was introduced into BW2001 (xth-11, nfo-2) strain cells of Escherichia coli. The transformed cells expressed a 36.4-kDa polypeptide (the 316 amino acid sequence of APEX nuclease headed by the N-terminal decapeptide of beta-galactosidase) and were less sensitive to methyl methanesulfonate than the parent cells. The fusion product showed priming activity for DNA polymerase on bleomycin-damaged DNA and acid-depurinated DNA. The deduced amino acid sequence of mouse APEX nuclease exhibits a significant homology to those of exonuclease III of E. coli and ExoA protein of Streptococcus pneumoniae and an intensive homology with that of bovine AP endonuclease 1.     

Amino acid sequence of a nuclease (nuclease Le1) from Lentinus edodes

The fruit bodies of Lentinus edodes produce two acid nucleases, nucleases Le1 and Le3, both of which are thought to be candidates for the enzymes producing a tasty substance, 5'-GMP. To obtain the basic information on the mechanism of production of 5'-GMP, and structure-function relationship of these nucleases, the primary structure of nuclease Le1 was estimated by both protein chemistry and gene cloning. Nuclease Le1 is a glycoprotein and consists of 290 amino acid residues, and about 2 and 6 residues of hexosamine and neutral sugar, respectively. The nucleotide sequence of cDNA and genomic DNA encoding nuclease Le1 indicated the presence of 20 amino acid residues of a signal peptide. Nuclease Le1 has 115 and 108 residues of identical amino acid residues with nucleases P1 and S, respectively. The amino acid residues concerning the coordination with Zn2+ in nuclease P1 are all conserved in nuclease Le1. Nuclease Le1 contains 8 half-cystine residues and 4 of them are located at the same places as those of nucleases P1 and S.     

Degradation of DNA by silicic acid

S1 nuclease hydrolysis and hydroxyapatite chromatography were used to study the effect of silicic acid on DNA. Native calf thymus DNA was incubated with increasing concentrations of silicic acid (DNA nucleotide/silicic acid molar ratios of 1:0.25, 1:0.5 and 1:1) and subjected to S1 nuclease hydrolysis. An increasing degree of DNA degradation was seen suggesting a destabilization of the secondary structure. A decrease in melting temperature was also observed. Hydroxyapatite chromatography indicated that incubation at the molar ratio of 1:1 resulted in denaturation and degradation of DNA.     

Effect of Salvia miltiorrhiza on aflatoxin B1-induced oxidative stress in cultured rat hepatocytes

Recent findings have suggested that oxidative damage might contribute to the cytotoxicity and carcinogenicity of aflatoxin B₁ (AFB₁). Salvia miltiorrhiza (Sm), a herbal plant that has been used extensively in traditional Chinese medicine for treating cardiovascular and liver diseases, is believed to have some antioxidative capabilities. In this study, the protective effect of Sm against AFB₁-induced cytotoxicity was investigated in cultured primary rat hepatocytes. AFB₁-induced cytotoxicity and lipid peroxidation (LPO) were estimated by determination of lactate dehydrogenase (LDH) leakage and thiobarbituric acid reactive substances (TBARS) formation, respectively. Intracellular reactive oxygen species (ROS) formation was measured using a fluorescent probe 2',7'-dichlorofluorescein diacetate (DCFH-DA). In addition, changes of intracellular glutathione (GSH) content were also studied. Results showed that Sm was able to suppress the LDH leakage induced by AFB₁ in a dose-dependent manner. A dose-dependent inhibitory effect of Sm on AFB₁-induced LPO was also found in hepatocytes treated with Sm. It was further observed that Sm produced an inhibitory effect on ROS formation caused by AFB₁. Concomitantly, the GSH content in Sm-treated groups increased substantially compared to those without Sm treatment. These findings suggest that Sm can inhibit the cytotoxicity of AFB₁ through decreasing ROS formation, inhibiting LPO and preventing GSH depletion. The major component of the aqueous extract of Sm was identified by using high performance liquid chromatography (HPLC), proton magnetic resonance (¹H-NMR) and mass spectrum (MS). Analytical results suggested that D(+)β3,4-dihydroxyphenol lactic acid (DA) is the main compound of the aqueous extract of Sm.     

Purification and Characterization of the Crown Gall-specific Enzyme, Octopine Synthase

A single enzyme catalyzes the synthesis of all four N²-(1-carboxyethyl)-amino acid derivatives found in a crown gall tumor tissue induced by Agrobacterium tumefaciens (E. F. Sm. and Town.) Conn strain B6 on sunflower (Helianthus annuus L.). This enzyme, octopine synthase, has been purified by ammonium sulfate fractionation and chromatography on diethylaminoethylcellulose, blue agarose, and hydroxylapatite. The purified enzyme has all the N²-(1-carboxyethyl)-amino acid synthesizing activities found in crude preparations, and the relative activities with six amino acids remain nearly constant during purification. Although the maximum velocities (V) and Michaelis constants (K_m) differ, the ratio V/K_m is the same for all amino acid substrates. Thus an equimolar mixture of amino acids will give rise to an equimolar mixture of products. The kinetic properties of the enzyme are consistent with a partially ordered mechanism with arginine (NADPH, then arginine or pyruvate). Octopine synthase is a monomeric enzyme with a molecular weight of 39,000 by gel filtration and 38,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis.     

Chemical identity of tryptensin with angiotensin.

Tryptensin, a vasopressor substance generated from human plasma protein fraction IV-4 by trypsin, has been isolated and the amino acid composition analysed. The procedures used for the isolation were: (a) adsorption of the formed tryptensin on Dowex 50W (X2; NH4+ form); (b) gel filtration through Sephadex G-25; (c) cation-exchange chromatography on CM-cellulose; (d) anion-exchange chromatography on DEAE-cellulose; (e) re-chromatography on CM-cellulose; (f) gel filtration on Bio-Gel P-2; (g) partition chromatography on high-pressure liquid chromatography. The homogeneity of the isolated tryptensin was confirmed by thin-layer chromatography and thin-layer electrophoresis. The amino acid analysis of the hydrolysate suggested the following proportional composition: Asp, 1; Val, 1; Ile, 1; Tyr, 1; Phe, 1; His, 1; Arg, 1; Pro, 1. This composition is identical with that of human angiotensin.     

Effect of Salvia miltiorrhiza on aflatoxin B1-induced oxidative stress in cultured rat hepatocytes

Recent findings have suggested that oxidative damage might contribute to the cytotoxicity and carcinogenicity of aflatoxin B₁ (AFB₁). Salvia miltiorrhiza (Sm), a herbal plant that has been used extensively in traditional Chinese medicine for treating cardiovascular and liver diseases, is believed to have some antioxidative capabilities. In this study, the protective effect of Sm against AFB₁-induced cytotoxicity was investigated in cultured primary rat hepatocytes. AFB₁-induced cytotoxicity and lipid peroxidation (LPO) were estimated by determination of lactate dehydrogenase (LDH) leakage and thiobarbituric acid reactive substances (TBARS) formation, respectively. Intracellular reactive oxygen species (ROS) formation was measured using a fluorescent probe 2′,7′-dichlorofluorescein diacetate (DCFH-DA). In addition, changes of intracellular glutathione (GSH) content were also studied. Results showed that Sm was able to suppress the LDH leakage induced by AFB₁ in a dose-dependent manner. A dose-dependent inhibitory effect of Sm on AFB₁-induced LPO was also found in hepatocytes treated with Sm. It was further observed that Sm produced an inhibitory effect on ROS formation caused by AFB₁. Concomitantly, the GSH content in Sm-treated groups increased substantially compared to those without Sm treatment. These findings suggest that Sm can inhibit the cytotoxicity of AFB₁ through decreasing ROS formation, inhibiting LPO and preventing GSH depletion. The major component of the aqueous extract of Sm was identified by using high performance liquid chromatography (HPLC), proton magnetic resonance (¹H-NMR) and mass spectrum (MS). Analytical results suggested that D(+)β3,4-dihydroxyphenol lactic acid (DA) is the main compound of the aqueous extract of Sm.     

cDNA cloning, sequencing, expression and possible domain structure of human APEX nuclease homologous to Escherichia coli exonuclease III.

cDNA encoding the human homologue of mouse APEX nuclease was isolated from a human bone-marrow cDNA library by screening with cDNA for mouse APEX nuclease. The mouse enzyme has been shown to possess four enzymatic activities, i.e., apurinic/apyrimidinic endonuclease, 3'-5' exonuclease, DNA 3'-phosphatase and DNA 3' repair diesterase activities. The cDNA for human APEX nuclease was 1420 nucleotides long, consisting of a 5' terminal untranslated region of 205 nucleotide long, a coding region of 954 nucleotide long encoding 318 amino acid residues, a 3' terminal untranslated region of 261 nucleotide long, and a poly(A) tail. Determination of the N-terminal amino acid sequence of APEX nuclease purified from HeLa cells showed that the mature enzyme lacks the N-terminal methionine. The amino acid sequence of human APEX nuclease has 94% sequence identity with that of mouse APEX nuclease, and shows significant homologies to those of Escherichia coli exonuclease III and Streptococcus pneumoniae ExoA protein. The coding sequence of human APEX nuclease was cloned into the pUC18 SmaI site in the control frame of the lacZ promoter. The construct was introduced into BW2001 (xth-11, nfo-2) strain and BW9109 (delta xth) strain cells of E. coli. The transformed cells expressed a 36.4 kDa polypeptide (the 317 amino acid sequence of APEX nuclease headed by the N-terminal decapeptide derived from the part of pUC18 sequence), and were less sensitive to methylmethanesulfonate and tert-butyl-hydroperoxide than the parent cells. The N-terminal regions of the constructed protein and APEX nuclease were cleaved frequently during the extraction and purification processes of protein to produce the 31, 33 and 35 kDa C-terminal fragments showing priming activities for DNA polymerase on acid-depurinated DNA and bleomycin-damaged DNA. Formation of such enzymatically active fragments of APEX nuclease may be a cause of heterogeneity of purified preparations of mammalian AP endonucleases. Based on analyses of the deduced amino acid sequence and the active fragments of APEX nuclease, it is suggested that the enzyme is organized into two domains, a 6 kDa N-terminal domain having nuclear location signals and 29 kDa C-terminal, catalytic domain.     

Biochemical properties and hormonal regulation of barley nuclease

The amino acid composition and NH2-terminal amino acid sequence of barley nuclease (EC 3.1.30.2) were determined. The amino acid composition is similar to that of mung bean nuclease, and therefore the biochemical properties of barley nuclease were characterized and compared with those of mung bean and other plant nucleases. The 3'-nucleotidase activity of barley nuclease is greater for purine than for pyrimidine ribonucleotides. The enzyme has little activity towards ribonucleoside 2' and 5'-monophosphates, and deoxyribonucleoside 3' and 5'-monophosphates, and is also inactive towards the 3'-phosphoester linkage of nucleoside cyclic 2',3' and 3',5'-monophosphates. The enzyme hydrolyzes dinucleoside monophosphates, showing strong preference for purine nucleosides as the 5' residues. Barley nuclease shows significant base preference for homoribonucleic acids, catalyzing the hydrolysis of polycytidylic acid greater than polyuridylic acid greater than polyadenylic acid much greater than polyguanylic acid. The enzyme also has preference for single-stranded nucleic acids. Hydrolysis of nucleic acids is primarily endonucleolytic, whereas the products of digestion possess 5'-phosphomonoester groups. Nuclease activity is inhibited by ethylenediaminetetraacetic acid and zinc is required for reactivation. Secretion of nuclease from barley aleurone layers is dependent on the hormone gibberellic acid [Brown, P.H. and Ho, T.-h. D. (1986) Plant Physiol. 82, 801-806]. Consistent with these results, gibberellic acid induces up to an eight-fold increase in the de novo synthesis of nuclease in aleurone layers. The secreted enzyme is a glycoprotein having an apparent molecular mass of 35 kDa. It consists of a single polypeptide having an asparagine-linked, high-mannose oligosaccharide. The protein portion of the molecule has a molecular mass of 33 kDa.     

Occurrence of Nuclease P1-Malonogalactan Complex

Nuclease P₁ from Penicillium citrinum was found to be produced in a form of complex with malonogalactan (a galactan, 1, 5-β-galactofuranoside polymer esterfied with malonic acid at position 3) in the culture on wheat bran. Neither nuclease P₁-malonogalactan complex nor malonogalactan was produced in a liquid medium. Nuclease P₁-malonogalactan complexes, P₁-MG I, II, and III were purified from an aqueous extract of the culture on wheat bran. The most anionic complex, P₁-MG III, was composed of the protein, carbohydrate and malonic acid in the ratio of 1: 2.6: 0.5 (w/w). The complex was not dissociated by purification procedures including fractionations with acetone and ammonium sulfate, gel filtration and DEAE-cellulose chromatography. A malonogalactan-specific carboxylesterase was found in culture of the same mold on wheat bran. Nuclease P₁-malonogalactan was demalonylated by the esterase to yield nuclease P₁-galactan. The binding of nuclease P₁ to galactan was rather loose so that nuclease P₁-galactan complex was partially dissociated by DEAE-cellulose chromatography. Attempt to reconstitute the complex from nuclease P₁ and malonogalactan upon mixing was unsuccessful. Exogenously supplemented nuclease P₁ did not associate with malonogalactan in the growing culture on wheat bran, either.

Several extracellular enzymes such as RNase, β-galactosidase and protease were also found in a form of complex with malonogalactan in the culture on wheat bran.     

A kinetic study of the folding of nuclease B, a possible precursor of staphylococcal nuclease A.

Nuclease B, which contains an additional flexible amino acid sequence of 19 amino acid residues bound to the NH2-terminus of nuclease A, an extracellular nuclease of Staphylococcus aureus, has been investigated in order to determine the influence of the extra residues on the refolding of the nuclease A portion from the acid denaturated state by monitoring the change in tryptophan fluorescence using a stopped-flow technique. It was found that the kinetic parameters of this refolding is similar within experimental error for nuclease A and nuclease B for the entire course (up to 40 s) studied. Therefore, the extra residues do not appear to have any detectable effect on the dynamic events involved in the refolding process. Thus, the folding of the nuclease A portion of nuclease B appears to be thermodynamically and kinetically independent of the 19 residues at the amino-terminus.