Three forms of DNA polymerase from Drosophila melanogaster embryos. Purification and properties.

DNA polymerase was purified from Drosophila melanogaster embryos by a combination of phosphocellulose adsorption, Sepharose 6B gel filtration, and DEAE-cellulose chromatography. Three enzyme forms, designated enzymes I, II, and III, were separated by differential elution from DEAE-cellulose and were further purified by glycerol gradient centrifugation. Purification was monitored with two synthetic primer-templates, poly(dA) . (dT)-16 and poly(rA) . (dT)-16. At the final step of purification, enzymes I, II, and III were purified approximately 1700-fold, 2000-fold and 1000-fold, respectively, on the basis of their activities with poly(dA) . (dT)-16. The DNA polymerase eluted heterogeneously as anomalously high-molecular-weight molecules from Sepharose 6B gel filtration columns. On DEAE-cellulose chromatography enzymes I and II eluted as distinct peaks and enzyme III eluted heterogeneously. On glycerol velocity gradients enzyme I sedimented at 5.5-7.3 S, enzyme II sedimented at 7.3-8.3 S, and enzyme III sedimented at 7.3-9.0 S. All enzymes were active with both synthetic primer-templates, except the 9.0 S component of enzyme III, which was inactive with poly(rA) . (dT)-16. Non-denaturing polyacrylamide gel electrophoresis did not separate poly(dA) . (dT)-16 activity from poly(rA) . (dT)-16 activity. The DNA polymerase preferred poly(dA) . (dT)-16 (with Mg2+) as a primer-template, although it was also active with poly(rA) . (dT)-16 (with Mn2+), and it preferred activated calf thymus DNA to native or heat-denatured calf thymus DNA. All three primer-template activities were inhibited by N-ethylmaleimide. Enzyme activity with activated DNA and poly(dA) . (dT)-16 was inhibited by K+ and activity with poly(rA) . (dT)-16 was stimulated by K+ and by spermidine. The optimum pH for enzyme activity with the synthetic primer-templates was 8.5. The DNA polymerases did not exhibit deoxyribonuclease or ATPase activities. The results of this study suggest that the forms of DNA polymerase from Drosophila embryos have physical properties similar to those of DNA polymerase-alpha and enzymatic properties similar to those of all three vertebrate DNA polymerases.     

Characterization of an alpha-like DNA polymerase from Bombyx mori silkglands.

A soluble DNA polymerase has been purified near to homogeneity from Bombyx mori silkglands. The following characteristics were observed: high molecular weight (about 150 000 - 220 00); optimum pH about 8; inhibition by high salt concentrations, sulfhydryl-group blocking agents and polyamines; absence of nuclease activity; preference for magnesium as required divalent cation with all the efficient template-primers tested; and clear template-primer specificity, the purified enzyme being able to copy primed - polydeoxyribonucleotide templates [activated DNA, poly(dA).oligo(dT), poly(dA).oligo(rU)] but not polyribonucleotide chains [poly(rA).oligo(dT), poly(rA).oligo(rU)] in the presence of either Mg++ or MN++. Believed to represent the bulk of silkgland DNA polymerase activity, the purified soluble enzyme most resembles vertebrate DNA polymerases alpha when it is compared to other eukaryotic DNA polymerases as yet characterized.     

Characterization of an RNA-directed DNA-polymerase from a cell line derived from a radiation-induced lymphoma in mice.

An RNA-directed DNA polymerase was purified from a cell line derived from a radiation-induced lymphoma in NIH Swiss mice which produced non-infectious type C virus particles. The enzyme was isolated from a high speed particulate fraction which bands at a density of 1.16--1.19 g/ml in a sucrose gradient, and purified by successive chromatography on DEAE-cellulose, phosphocellulose and hydroxyapatite. The purified DNA polymerase has a molecular weight of 68 000, a pH optimum of 7.5, a KCl optimum of 50 mM, and a Mn2+ optimum of 0.25 mM. It prefers (dT)15 . (A)n to (dT)15 . (dA)n as the primer template and transcribes the poly(C) strand of (dG)15 .(C)n and (dG)15 . (OMeC)n. It transcribes heteropolymeric regions of avian myeloblastosis virus 70 S RNA, and is inhibited by antiserum to Rauscher murine leukemia virus DNA polymerase. Comparison of the properties of DNA polymerase purified from radiation-induced lymphoma cells with the DNA polymerase purified from non-defective murine type C RNA tumor viruses shows that the mouse lymphoma enzyme is both biochemically and immunologically related to murine leukemia virus DNA polymerases.     

On the DNA polymerase III of mouse myeloma: partial purification and characterization.

A high molecular weight membrane-bound DNA polymerase from the mouse myeloma, MOPC-104E, has been purified extensively, and characterized with regard to physical and reaction properties. This enzyme, which is readily distinguishable from other myeloma enzymes that are analogous to the recognized forms of cellular DNA polymerase, is ddesignated DNA polymerase III. DNA polymerase III activity in whole homogenates from MOPC-104E was solubilized and then prurifed using a series of ion-exchange chromatographic procedures followed by DNA-cellulose chromatography and glycerol gradient centrifugation; the enzyme activity as measured with poly(rA)-(dT)12-18 as template-primer and Mn2+ as divalent cation, was purified as much as 18,000-fold. In the final stages of the pruification, DNA polymerase III possessed no detectable RNA polymerase activity, nucleoside diphosphokinase activity, or nucease activity toward DNA or single- and double-stranded RNA...     

Purification and properties of a low molecular weight DNA polymerase from Neurospora crassa

A third DNA polymerase 'C' with low molecular weight was isolated and purified 3700-fold from ground hyphae of Neurospora crassa WT 74 A, which shows similarities to beta- and gamma-polymerases from higher eukaryotes: preference for poly(rA)(dT) as a template/primer, inhibition by p-chloromercuribenzoate, resistance against N-ethylmaleimide up to 10 mmol/l, and molecular weight of about 40000. This polymerase elutes as a distinct peak from DEAE-cellulose at 0.60 mol/l KCl and has an optimum for K+ at 2-20 mmol/l, for Mn2+ at 0.8 mmol/l, for Mg2+ at 4.0 mmol/l, the pH optimum is 8.0. Its Km is 1.5 mumol/l using dTTP as substrate. The enzyme activity described here is free of endonuclease but contains detectable amounts of exonuclease.     

Identity of DNA polymerase gamma from synaptosomal mitochondria and rat-brain nuclei

DNA polymerase gamma and mitochondrial DNA polymerase were isolated from brain nuclei and synaptosomes respectively. The presence of a single DNA polymerase in synaptosomal mitochondria was established by chromatography on DEAE-cellulose, phosphocellulose and DNA-cellulose, as well as by sedimentation analysis and isoelectric focusing. A great similarity between the purified nuclear DNA polymerase gamma and the mitochondrial enzyme was found by the following criteria: chromatographic behaviour in three column systems; essentially complete inhibition by N-ethyl-maleimide (2 mM); optimal requirements of Mn2+ (0.1 mM), Mg2+ (5 mM) and pH (8.0); template preferences, poly(A) - (dT)20-25 larger than activated DNA larger than poly(dA) - (dT)12-18; lack of activity on single-stranded polynucleotides and (dT)12-primed mRNA; molecular weight (180000), sedimentation (9.2 S) and isoelectric point (pI 5.4). We therefore conclude that brain nuclear DNA polymerase gamma and synaptosomal mitochondrial DNA polymerase are closely related and may even be identical.     

Novikoff hepatoma deoxyribonucleic acid polymerase. Purification and properties of a homogeneous beta polymerase.

Deoxyribonucleic acid polymerase-beta (EC 2.7.7.7) FROM THE Novikoff hepatoma has been purified over 200 000-fold (based on the increase in specific activity), by ammonium sulfate fractionation and chromatography on DEAE-Sephadex, phosphocellulose, hydroxylapatite, and DNA-cellulose. The enzyme is remarkably stable through all stages of purification until DNA-cellulose chromatography when it must be kept in buffers containing 0.5 M NaCl and 1 mg/ml bovine serum albumin for stability. The enzyme appears to be homogeneous as evidenced by a single stainable band when subjected to electrophoresis in polyacrylamide gels of different porosity. The stainable band corresponds to the DNA polymerase as determined by slicing sister gels and assaying for enzyme activity. The specific activity of the homogeneous preparation is about 60 000 units/mg. The enzyme lacks detectable exonuclease or endonuclease activity. It has a molecular weight of 32 000 as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis. In sucrose gradients, the molecular weight is estimated at 31 000. The isoelectric point of the hydroxylapatite fraction enzyme is 8.5. The Novikoff beta-polymerase requires all four deoxyribonucleoside triphosphates, primer-template, and a divalent cation for maximal activity. The apparent Km for total deoxyribonucleoside triphosphate is 7-8 muM and for DNA 125 mug/ml. Activated DNA, rendered 7% acid soluble by DNase I, is the preferred primer-template, although a number of synthetic polynucleotides can by efficiently utilized, particularly in the presence of Mm2+ optimum is 7 mM; the Mn2+ optimum is 1 mM. The pH optimum is 8.4 in Tris-HCl or 9.2 in glycine buffer. The beta-polymerase is sstimulated about twofold by NaCl or KCl at an optimum of 50-100 MM, and the enzyme maintains considerable activity at high ionic strengths. The DNA polymerase is inhibited by ethanol, acetone, and a variety of known polymerase inhibitors. Glycols stimulate the enzyme as does spermine or spermidine. Unlike most beta-polymerases, the Novikoff enzyme is moderately sensitive to N-ethylmaleimide.     

Purification and kinetic properties of polynucleotide kinase from rat testes

Polynucleotide kinase (EC 2.7.1.78) has been purified from rat testes, and an approximately 2000-fold purification was obtained. The purified enzyme had an Mr of 38000 +/- 3800. The enzyme phosphorylated micrococcal nuclease-treated calf thymus DNA and (dT)10 while 5'-HO-tRNA was a very poor substrate. A certain degree of specificity towards purine-containing 5'-HO-nucleotides was observed. The polynucleotide kinase had an absolute requirement for a divalent cation. Both Mg2+ and Mn2+ could be used, but 10 mM MgCl2 gave optimal activity. The monovalent cations Na+, K+ and NH4+ all stimulated enzyme activity, and the optimal concentration was 0.1 M. The enzyme was inhibited by inorganic phosphate, pyrophosphate and sulphate. A 50% inhibition was obtained with 20, 0.3 and 2 mM, respectively. At 2 mM MgCl2, 1 mM spermine enhanced the enzyme activity 3-times. The apparent KATP was estimated to be 36 microM and KHO-DNA was found to be 2 microM.     

Purification and characterization of the DNA polymerase and RNase H activities in Moloney murine sarcoma-leukemia virus.

Two RNase H (RNA-DNA hybrid ribonucleotidohydrolase, EC 3.1.4.34) activities separable by Sephadex G-100 gel filtration were identified in lysates of Moloney murine sarcoma-leukemia virus (MSV). The larger enzyme, which we have called RNase H-I, represented about 10% of the RNase H activity in the virion. RNase H-I (i) copurified with RNA-directed DNA polymerase from the virus, (ii) had a sedimentation coefficient of 4.4S (corresponds to an apparent mol wt of 70,000), (iii) required Mn-2+ (2 mM optimum) for activity with a [3-h]poly(A)-poly(dT) substrate, (iv) eluted from phosphocellulose at 0.2 M KC1, and (v) degraded [3-H]poly(A)-poly(dT) and [3-H]poly(C)-poly(dG) at approximately equal rates. The smaller enzyme, designated RNase H-II, which represented the majority of the RNase H activity in the virus preparation, was shown to be different since it (i) had no detectable, associated DNA polymerase activity, (ii) had a sedmimentation coefficient of 2.6S (corresponds to an apparent mol wt of 30,000), (iii) preferred Mg-2+ (10 to 15 mM optimum) over Mn-2+ (5 to 10 mM optimum) 2.5-fold for the degradation of [3-H]poly(A)-poly(dT), and (iv) degraded [3-H]poly(A)-poly(dT) 6 and 60 times faster than [3-H]poly(C)-poly(dG) in the presence of Mn-2+ and Mg-2+, respectively. Moloney MSV DNA polymerase (RNase H-I), purified by Sephadex G-100 gel filtration followed by phosphocellulose, poly(A)-oligo(dT)-cellulose, and DEAE-cellulose chromatography, transcribed heteropolymeric regions of avian myeloblastosis virus 70S RNA at a rate comparable to avian myeloblastosis virus DNA polymerase purified by the same procedure.     

Mechanistic Independence of Avian Myeloblastosis Virus DNA Polymerase and Ribonuclease H

Differential inhibition conditions were established for the DNA polymerase and RNase H activities of avian myeloblastosis virus (AMV) with ether-disrupted AMV and a purified enzyme preparation. The RNase H activity of ether-disrupted AMV with (rA)(n).(dT)(n) and (rA)(n).(dT)(11) as substrates was inhibited 80 to 100% by preincubation with NaF at a final reaction concentration of 27 to 30 mM. Under these conditions, the DNA polymerase activity was inhibited only 0 to 20%. Similar inhibitions were found with exogenous Rous sarcoma virus 35S and 70S RNA.DNA hybrid and phiX174 DNA.RNA hybrid as substrates. Studies were also performed with a purified enzyme preparation, in which the two activities essentially co-purified. The RNase H activity was inhibited >80% by 150 mM KCl with three different hybrid substrates, whereas the DNA polymerase activity was uninhibited. The DNA polymerase was completely inactivated by heat denaturation at 41 C or by omission of the deoxytriphosphates from the reaction mixture; the RNase H remained active. These differential inhibition conditions were used to compare the size of the DNA product synthesized with and without simultaneous RNase H action and to examine the effect of inhibition of the DNA polymerase on the size of the RNase H products. The size of the products of one activity was not affected by inhibition of the other activity. These results suggest that the AMV DNA polymerase and RNase H are not coupled mechanistically.     

Deoxyribonucleic acid polymerase from the marine Pseudomonas sp. BAL-31.

A deoxyribonucleic acid (DNA)-dependent DNA polymerase (DNA nucleotidyltransferase) was purified 3,000-fold from the marine Pseuodomonas sp. BAL-31. The molecular weight of the native enzyme was estimated by glycerol gradient sedimentation to be 110,000. The enzyme migrated in sodium dodecyl sulfate-acrylamide gels as a single polypeptide with a molecular weight of 105,000. An absolute requirement for divalent cation was satisfied by Mg2+ or Mn2+ at concentrations of 1 mM. Monovalent cations at concentrations higher than 50 mM showed an inhibitory effect. The polymerase activity was resistant to N-ethylmaleimide and showed a wide pH optimum.     

鼻咽癌转移淋巴结中EB病毒相关的DNA多聚酶的分离及其特性研究

一种新的DNA多聚酶已从鼻咽癌(NPC)转移淋巴结胞核酶液,通过DEAE-纤维素柱层析而被部分纯化,并可与细胞的α-及β-DNA多聚酶分开。 此酶有下列特点可与细胞DNA多聚酶区分:(1)可放DEAE-纤维素吸附,需用130mMK_2HPO_4缓冲液方可洗脱下来。(2)可被浓盐所激活,150——200mMKCl或75mM(NH_4)_2SO_4可使它显示最高的酶活性。(3)最适pH为8.0。(4)对磷酰甲酸盐的抑制较敏感。(5)能很好地利用某些合成模板,如poly(dA)·oligo(dT)_(10)及poly(dA)·oligo(dT)_(12-18)。但不能利用poly(rA)·oligo(dT)_(10),证明此酶并非细胞的γ-DNA多聚酶,而与巴基特淋巴瘤的EB病毒相关的(EBV)DNA多聚酶性质十分相似。对照的Raji细胞未见此种EBV-DNA多聚酶。 从鼻咽癌淋巴结中分离出此种EBV-DNA多聚酶,将对EB病毒与NPC的发病关系提供新的证据。     

A Polydeoxythymidylic acid-specific deoxyribonuclease from rat ascites hepatoma cells.

A deoxyribonuclease has been purified 950-fold from rat ascites hepatoma cells and has been separated from another deoxyribonuclease that appears to have DNase III type activity. The enzyme preferentially degrades single stranded poly(dT), requires Mg²⁺ for maximum activity and has a pH optimum at 8.5 in Tris-HCl buffer. Poly(dA), poly(dC), poly(rA), and poly(rU) are not effective substrates. The hydrolysis of poly(dT) is strongly inhibited when poly(dA) or poly(rA) is annealed with poly(dT). Poly(dT) is degraded ultimately into 5′-deoxythymidylic acid via the formation of oligodeoxythymidylate intermediates.     

Influence of polyamines on the activity of DNA polymerase I from Escherichia coli.

The influence of polyamines on the various activities of DNA polymerase I from Escherichia coli (EC 2.7.7.7) has been investigated. For all high molecular weight DNAs spermine and spermidine caused up to 80% inhibition when present in high concentrations, i.e. above 1 mM for spermine and 2 mM for spermidine. In the presence of low concentrations of polyamines a small activation was seen for some DNAs. The diamines cadaverine and putrescine had little influence on the rate of synthesis with natural occurring DNAs. In the case of d(A--T)n the activation/inhibition was found to be markedly dependent on the molecular weight of the samples used. With a low molecular weight DNA, 5.6 S, addition of spermidine resulted in up to 3-fold stimulation of activity. The activation was dependent on the concentration of MgCl2 and ionic strength; increasing concentration of these gave a decrease in the degree of activation. Polyamines also had a dramatic effect on the rate of synthesis using the homopolymers (dA)n . (dT)10 and (rA)n . (dT)10 . (20:1) as primers. Putrescine, in particular, increased the activity up to 10-fold with (rA)n . (dT)10 and somewhat less for (dA)n . (dT)10. The apparent Km for the primer (rA)n . (dT)10 decreased approx. 35-fold in the presence of 6.6 mM putrescine. There was no influence on the apparent Km for dTTP. The influence of polyamines on both the 5' leads to 3' and 3' leads to 5' nuclease activity was also investigated. Inhibition of nuclease activity was observed in the presence of polyamines, particularly with spermine. Thus with d(A--T)n and T7 DNA as substrates addition of 0.7 mM spermine resulted in almost complete inhibition of the activity. The dramatic inhibition observed with high concentrations of spermine (spermidine) both in the case of polymerizing and nuclease activity is thought to be due to polyamine-induced aggregation of DNA molecules.     

A DNA polymerase from Ustilago maydis. 1. Purification and properties of the polymerase activity.

A DNA polymerase from Ustilago maydis has been purified to apparent homogeneity. The native enzyme possesses a subunit structure consisting of 50000 and 55000-dalton monomers. The apparent sedimentation coefficient of the polymerase activity in the absence of salt is 8.4 S (Mr=180000-200000), that in its presence (0.6 M NaCl or 0.12 M KCl) being 6.3 S (Mr=80000-100000). Low concentrations of EDTA also converted the 8.4-S to a 6.3-S form, whereas magnesium ions catalysed the reverse association. The enzyme has an absolute requirement for both a DNA or RNA template and a DNA primer. For homopolymer templates the primer requirement was satisified by a short complementary oligodeoxynucleotide, but oligoribonucleotides were extremely inefficient primers. With the template-primer poly(dA) X (dT)12, the enzyme added an average of 50 dTMP nucleotides on to each primer molecule, whereas with poly(rA) X (dT)12, this figure was 300. The enzyme also possesses an associated deoxyribonuclease activity. No other DNA polymerase activity was detected in cell-free extracts of U. maydis.     

Purification and regulation of glucose-6-phosphate dehydrogenase from Bacillus licheniformis

d-Glucose-6-phosphate nicotinamide adenine dinucleotide phosphate (NADP) oxidoreductase (EC 1.1.1.49) from Bacillus licheniformis has been purified approximately 600-fold. The enzyme appears to be constitutive and exhibits activity with either oxidized NAD (NAD(+)) or oxidized NADP (NADP(+)) as electron acceptor. The enzyme has a pH optimum of 9.0 and has an absolute requirement for cations, either monovalent or divalent. The enzyme exhibits a K(m) of approximately 5 muM for NADP(+), 3 mM for NAD(+), and 0.2 mM for glucose-6-phosphate. Reduced NADP (NADPH) is a competitive inhibitor with respect to NADP(+) (K(m) = 10 muM). Phosphoenolpyruvate (K(m) = 1.6 mM), adenosine 5'-triphosphate (K(m) = 0.5 mM), adenosine diphosphate (K(m) = 1.5 mM), and adenosine 5'-monophosphate (K(m) = 3.0 mM) are competitive inhibitors with respect to NAD(+). The molecular weight as estimated from sucrose density centrifugation and molecular sieve chromatography is 1.1 x 10(5). Sodium dodecyl sulfate gel electrophoresis indicates that the enzyme is composed of two similar subunits of approximately 6 x 10(4) molecular weight. The intracellular levels of glucose-6-phosphate, NAD(+), and NADP(+) were measured and found to be approximately 1 mM, 0.9 mM, and 0.2 mM, respectively, during logarithmic growth. From a consideration of the substrate pool sizes and types of inhibitors, we conclude that this single constitutive enzyme may function in two roles in the cell-NADH production for energetics and NADPH production for reductive biosynthesis.     

Synthetic RNA-dependent DNA polymerase from calf thymus

A RNA dependent-DNA polymerase was purified about 450-fold from the soluble fraction of calf thymus. This enzyme was able to copy the polyribonucleic acid strand of synthetic ribonucleic acid primed with complementary oligodeoxynucleotides, i.e., poly(rA)·(dT)₁₀. This enzyme activity was separated from the DNA-dependent DNA polymerases by both DEAE-cellulose columm chromatography and glycerol gradient centrifugation. Some properties of this enzyme were described.     

Purification and characterization of baboon endogenous virus DNA polymerase.

An RNA-directed DNA polymerase was purified from baboon endogenous type-C virus by successive column chromatography on DEAE cellulose, phosphocellulose and hydroxyapatite. The purified DNA polymerase has a molecular weight of 68 000, a pH optimum of 8.0, a Mn2+ optimum of 1 mM, and a KCl optimum of 40 mM. The purified enzyme transcribes heteropolymeric regions of viral 60--70 S RNA isolated from different type-C viruses. The purified enzyme is immunologically related to a similarly purified polymerase from the cat endogenous type-C virus RD114.