Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.64 (proteinase K)
 4,071 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Donor deoxyribonucleic acid (DNA) single strands exist in a complex during the eclipse phase in pneumococcal transformation. This eclipse complex exhibited specific physical properties distinct from those of both pure DNA single strands and native DNA. These included a lower affinity for diethylaminoethyl-cellulose and hydroxylapatite than that of single-strand DNA, faster sedimentation than the DNA chains that it contains, and a buoyant density in Cs2SO4 lower than that of native DNA. The complex was dissociated by treatments with sodium dodecyl sulfate, NaOH, guanidine-hydrochloride, chloroform, and proteinase K but was insensitive to ribonuclease.
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PMID:Transformation in pneumococcus: existence and properties of a complex involving donor deoxyribonucleate single strands in eclipse. 2 Nov 66

Heat-labile enterotoxin (LT) produced by a human strain of enterotoxigenic Escherichia coli (286C(2)) was purified to homogeneity from pH extracts of fermentor-grown cells by ultrafiltration, (NH(4))(2)SO(4) fractionation, hydrophobic chromatography on norleucine-Sepharose 4B, hydroxylapatite chromatography, and Bio-Gel P-150 filtration. Purified LT preparations exhibited biological activity comparable to that of cholera toxin in four bioassays specific for the two enterotoxins (Y-1 adrenal tumor cells, Chinese hamster ovary cells, pigeon erythrocyte lysates, and skin permeability test). The overall yield of LT protein was 20%, which represented a 500-fold purification over pH extracts. A native molecular weight of 73,000 was determined by gel electrophoresis. The toxin dissociated upon treatment with sodium dodecyl sulfate, pH 7.0, into two components with molecular weights of 44,000 and 30,000. Purified LT preparations were remarkably stable over a wide range of storage conditions, temperatures, and pH's. The biological activity was increased by incubation with trypsin and completely destroyed by pronase and proteinase K, whereas deoxyribonuclease I, ribonuclease, and phospholipase D had no effect. The amino acid composition of purified LT was quite different from that of cholera toxin. Neither carbohydrate nor lipopolysaccharide was present in purified preparations. The purification scheme appeared applicable to LT produced by other human and porcine enterotoxigenic strains, but reflected the amount of LT produced by each strain. These data show that LT and cholera toxin share many common chemical and physical properties, but must be purified by different techniques.
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PMID:Purification and chemical characterization of the heat-labile enterotoxin produced by enterotoxigenic Escherichia coli. 3 93

Purified Escherichia coli recA protein catalyzed ATP-dependent pairing of superhelical DNA and homologous single-stranded fragments. The product of the reaction: (i) was retained by nitrocellulose filters in 1.5 M NaCl/0.15 M Na citrate at pH 7, (ii) was dissociated at pH 12.3 but was not dissociated by heating at 55 degrees C for 4 min or by treatment with 0.2% sodium dodecyl sulfate and proteinase K, (iii) contained covalently closed circular double-stranded DNA (form I DNA), (iv) contained single-stranded fragments associated with replicative form (RF) DNA, and (v) contained a significant fraction of D-loops as judged by electron microscopy. Linear and nicked circular double-stranded DNA did not substitute well for superhelical DNA; intact circular single-stranded DNA did not substitute well for single-stranded fragments. Homologous combinations of single-stranded fragments and superhelical DNA from phages phiX174 and fd reacted, whereas heterologous combinations did not. The reaction required high concentrations of protein and MgCl2. The ATPase activity of purified recA protein was more than 98% dependent on the addition of single-stranded DNA. In 1 mM MgCl2, the ability of superhelical DNA to support the ATPase activity was two-thirds as good as that of single-stranded DNA.
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PMID:Purified Escherichia coli recA protein catalyzes homologous pairing of superhelical DNA and single-stranded fragments. 15 61

Techniques are described for the growth and rapid purification of the avian coronavirus infectious bronchitis virus (IBV). Purified IBV has a sedimentation coefficient of 320S and a buoyant density of 1.22 g/ml in sucrose-deuterium oxide equilibrium gradients. IBV RNA extracted by proteinase K in the presence of sodium dodecyl sulfate and further purified by phenol extraction and gradient centrifugation is single stranded and has a sedimentation coefficient of 64S, as determined by isokinetic gradient centrifugation. Analysis on sucrose gradients under both aqueous and denaturing conditions together with agarose gel electrophoresis in the presence of the chaotropic agent methylmercuric hydroxide gave a value of 8 X 10(6) for the moleclar weight of IBV RNA. This value was confirmed by RNase T1 fingerprinting, which also indicated that IBV RNA is haploid. No evidence was found of subunit structure in IBV RNA. From these results together with the recently reported observation that IBV RNA is infectious and contains a tract of polyadenylic acid (Lomniczi, J. Gen. Virol., in press), we conclude that the genome of the coronaviruses is a single continuous chain of about 23,000 mononucleotides that is of messenger polarity.
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PMID:Genome of infectious bronchitis virus. 19 90

Heat-stable enterotoxin (ST) produced by porcine strains of enterotoxigenic (ENT+) Escherichia coli has been purified to apparent homogeneity by sequential ultrafiltration, acetone fractionation, preparative gel electrophoresis, diethylaminoethyl Bio-Gel A ion-exchange chromatography, and Bio-Gel P-10 gel filtration. The enterotoxin, purified more than 1,500-fold, exhibited a molecular weight of 4,400, as determined by both sodium dodecyl sulfate-gel electrophoresis and gel filtration. A molecular weight of 5,100, representing 47 residues, was calculated from amino acid analysis data. The amino acid content was distinctive, with an unusually high proportion of cystines and few hydrophobic amino acids. A single amino-terminal residue, glycine, was observed. Purified ST was stable to heating (100 degrees C, 30 min) and did not lose biological activity after treatment with Pronase, trypsin, proteinase K, deoxyribonuclease, ribonuclease, and phospholipase C. Periodic acid oxidation and several organic solvents (acetone, phenol, chloroform, and methanol) had no effect on the biological activity of ST. Further, purified ST was stable to acid treatment at pH 1.0 but lost biological activity at pH values greater than 9.0. Neither lipopolysaccharide nor lipid contamination was evident in purified preparations. A characteristic absorption spectrum was observed during the course of the purification, which shifted from a maximum at 260 nm in crude preparations to 270 nm for the purified toxin. Antiserum obtained from rabbits immunized with ST or ST coupled to bovine serum albumin neutralized the action of the enterotoxin in suckling mice; however, passive hemagglutination and hemolysis titer assays suggested that ST is a poor antigen.
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PMID:Purification and chemical characterization of the heat-stable enterotoxin produced by porcine strains of enterotoxigenic Escherichia coli. 34 81

E. coli DNA gyrase, which catalyzes the supercoiling of DNA, cleaves DNA site-specifically when oxolinic acid and sodium dodecylsulfate are added to the reaction. We studied the structure of the gyrasecleaved DNA because of its implications for the reaction mechanism and biological role of gyrase. Gyrase made a staggered cut, creating DNA termini with a free 3' hydroxyl and a 5' extension that provided a template primer for DNA polymerase. The cleaved DNA was resistant to labeling with T4 polynucleotide kinase even after treatment with proteinase K. Thus the denatured enzyme that remains attached to cleaved DNA is covalently bonded to both 5' terminal extensions. The 5' extensions of many gyrase cleavage fragments from phi X174, SV40 and Col E1 DNA were partially sequenced using repair with E. coli DNA polymerase I. No unique sequence existed within the cohesive ends, but G was the predominant first base incorporated by DNA polymerase I. The cohesive and sequences of four gyrase sites were determined, and they demonstrated a four base 5' extension. The dinucleotide TG, straddling the gyrase cut on one DNA strand, provided the only common bases within a 100 bp region surrounding the cleavage sites. Analysis of other cleavage fragments showed that cutting between a TG doublet is common to most, or all, gyrase cleavages. Other bases common to some of the sequenced sites were clustered nonrandomly around the TG doublet, and may be variable components of the cleavage sequence. This diverse recognition sequence with common elements is a pattern shared with several other specific nucleic acid-protein interactions.
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PMID:Site-specific cleavage of DNA by E. coli DNA gyrase. 37 3

The cholic acid CoA ligase activity of rat liver was quantitatively inactivated by proteolysis with pronase, chymotrypsin, subtilisin, or proteinase K in intact microsomal vesicles. Under the conditions employed, less than 14% of the lumenal mannose-6-phosphate phosphatase activity was lost, and the mannose-6-phosphate phosphatase activity remained highly latent. After microsomal integrity was disrupted with sodium deoxycholate, protease treatment resulted in a loss of greater than 74% of the mannose-6-phosphate phosphatase activity. Cholic acid CoA ligase activity was unaffected by preincubation of microsomes with sodium taurocholate under conditions that led to the complete expression of latent mannose-6-phosphate phosphatase activity. The data suggest that cholic acid CoA ligase activity is located on the cytoplasmic surface of hepatic microsomal vesicles.
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PMID:Evidence that cholic acid CoA ligase is located asymmetrically on the cytoplasmic surface of hepatic microsomal vesicles. 43 52

A highly folded, rapidly sedimenting form of rat liver mitochondrial DNA has been released from the organelles wiht BRIJ 58 and sodium deoxycholate in the presence of 0.5 M NaCl and isolated by sedimentation velocity in sucrose gradients. Under these conditions a majority of the mitochondrial DNA labeled in vitro sedimented beyond 39 S, the sedimentation coefficient of a highly purified mitochondrial DNA supercoil, and appeared as a stable, heterogeneous population of species ranging in s values between 42 S and about 70 S. Under formamide-spreading conditions most of the rapidly sedimenting forms appeared in the electron microscope as single genome length rosettes constrained at the center in a dense core. Except for an occasional D-loop, no extraordinary structural features were evident along the smooth loops projecting radially from the central core. In sucrose gradients containing various amounts of ethidium bromide, the sedimentation velocity of the folded DNA changed in a biphasic fashion in response to increasing amounts of dye. At a dye concentration of 0.5 microgram per ml the DNA species present reached s value minima, but two major peaks sedimenting at 32 S and 42 S were present at this point. Thus, although these species were similar in superhelix density, there appeared to be additional constraints superimposed upon their tertiary structure that folded these forms to differing degrees of compactness. Direct chemical analyses showed that proteins were bound to the folded DNA at a protein to DNA ratio of about 0.3. Separation of the bound proteins on SDS-polyacrylamide gels revealed an array of proteins ranging in molecular weight between 11,000 and 150,000. Several of the lower molecular weight proteins co-migrated with proteins from the inner mitochondrial membrane, but the major DNA-bound band (Mr = 58,000) was undetectable among the proteins from any other submitchondrial fraction. Digestion of the compact DNA structure with proteinase K under various conditions indicated that the DNA was maintained in the compact conformation by the tightly bound proteins and that the portions of these proteins directly involved in stabilizing the folded DNA were proteinase insensitive unless digestion was carried out in the presence of a disulfide reductant at elevated temperatures.
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PMID:A compact form of rat liver mitochondrial DNA stabilized by bound proteins. 44 94

A comparative study of some commonly employed laboratory procedures for studying DNA synthesis in isolated nuclei was carried out. Nuclei isolated from baby-hamster kidney (BHK-21/C13) cells synthesize DNA for 30-60min at 37 degrees C in a reaction requiring uni- and bi-valent cations, ATP and all four deoxyribonucleoside 5'-triphosphates. The addition of either ribonucleotides or cytosol from S-phase cells had no effect, but DNA synthesis was stimulated by some dextrans (mol.wt. 5x10(6)). The extent of synthesis was influenced by apparently minor variations in experimental conditions. For example, DNA synthesis by nuclei in Tris/HCl, pH7.5, was only 50% of that observed in Hepes/NaOH, pH7.5; the presence of detergents Triton X-100, Triton N-101, Nonidet P-40, Brij 58 and Tween 80 in the incubation medium altered the amount of synthesis to different extents. Although most detergents inhibited synthesis, a stimulation occurred with Tween 80 (150% of controls). These effects were reversed on washing the nuclei, except that of Brij 58, which inhibited DNA synthesis by 90-95% irreversibly. Anomalous sucrose-density-gradient sedimentation behaviour of the DNA, and of precursor [(3)H]-dTTP, was observed when nuclei were lysed with solutions of sodium dodecyl sulphate/Mg(2+) or with Sarkosyl/Mg(2+), but consistent results, showing that the DNA synthesized in vitro sedimented exclusively at about 4S, were obtained when nuclei were lysed with sodium dodecyl sulphate (without Mg(2+))/EDTA, digested with proteinase K and heated at 100 degrees C with 11% (v/v) formaldehyde to prevent macromolecular association. These results, coupled with density-labelling studies with bromodeoxyuridine and CsCl-density-gradient analysis, showed that DNA synthesis in these nuclei was replicative and was restricted to a covalent extension of Okazaki pieces previously initiated in vivo. No new initiations were observed, and the DNA was not ligated into larger molecules. The cessation of DNA synthesis after about 60 min was due to the complete utilization of available primer/template DNA.
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PMID:Deoxyribonucleic acid synthesis in isolated nuclei from baby-hamster kidney cells (BHK-21/C13). Characterization of the system. 45 70

By using sodium dodecyl sulphage/polyacrylamide-gel electrophoresis it was shown that rabbit muscle creatine kinase, both in a homogenate and purified, appears to be composed of a mixture of two peptides (mol.wts. 42100 and 40300) differing in length by about 15 amino acids. It is found that low concentrations of proteinase K from the fungus Tritirachium album can cleave about 38 amino acids from each chain of creatine kinase, leaving two large fragments (mol.wts 37700 and 35500). Scission of the whole enzyme was found to be concomitant with complete loss of enzyme activity. MgADP in the presence of absence of creatine slowed the rate of proteolysis by about 50%, but the transition-state analogue complex creatine-NO3--MgADP appeared to protect completely. The time course for the proteolytic inactivation in the presence of this complex, but not in its absence, was biphasic.
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PMID:Heterogeneity of rabbit muscle creatine kinase and limited proteolysis by proteinase K. 60 34


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