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1.
A procedure for purifying human cytoplasmic and mitochondrial deoxycytidine kinase (NTP:deoxycytidine 5'-phosphotransferase, EC 2.7.1.74) was developed. Both purified isozymes have a similar molecular weight, activation energy and catalyze the reaction by a sequential mechanism. These two isozymes differ with respect to their substrate specificities. With cytoplasmic deoxycytidine kinase, ATP, GTP and TTP have the highest reaction velocity. Pyrimidine nucleoside triphosphates have higher affinity but lower V than purine nucleoside triphosphates. Cytidine and arabinosylcytidine can serve as substrates. With mitochondrial isozyme only ATP gives the highest reaction velocity. ATP and dATP have the same Km but different V values. Besides deoxycytidine, also deoxythymidine but not cytidine or arabinosylcytidine can serve as substrates. There are also differences between these two isozymes with respect to their sensitivity to inhibition. For cytoplasmic enzyme, Br5dCyd and Iodo5dCyd are not inhibitory. Both dCTP and UTP are competitive inhibitors (Ki 0.25 and 0.5 micronM, respectively) with respect to ATP. For mitochondrial isozyme both Br5dCyd and Iodo5dCyd are inhibitory and dCTP and TTP are competitive inhibitors (Ki 2 and 10 micronM, respectively) with respect to ATP.  相似文献   

2.
Deoxythymidine kinases (EC 2.7.1.--) induced in HeLa TK- cells by Herpes simplex Type I and Type II viruses both had a requirement for divalent cations. The enzymes had the highest activities in the presence of Mg2+, followed by Mn2+, Ca2+, Fe2+, and in that order, whereas they were inactive in the presence of Zn2+ and Cu2+. The amount of Mg2+ required for optimal activity was dependent on the amount of ATP present, so that optimal activities were found when the concentration of Mg2+ was equal to that of ATP; an excess of Mg2+ inhibited the reaction. The activities of various nucleoside triphosphates as phosphate donors for Herpes simplex virus Type I deoxythymidine kinase were in the order: ATP = dATP = ara ATP greater than CTP greater than dCTP greater than UTP greater than dUTP greater than GTP greater than dGTP. Those for Herpes simplex virus Type II deoxythymidine kinase were in the order: CTP greater than dCTP = ara CTP greater than dATP greater than ATP greater than UTP greater than GTP greater than dUTP = dGTP. For both deoxythymidine kinases induced by Herpes simplex virus, the nucleoside triphosphates tested exerted cooperative effects. The Km values of ATP and CTP for the Herpes simplex virus Type I enzyme were 30 and 70 muM respectively; whereas those for the Herpes simplex virus Typr II enzyme were 140 and 450 muM. Studies on binding of various thymidine analogs with free 5'-OH to these deoxythymidine kinases indicated that 5-substituted ethyl-, vinyl-, allyl-, propyl-, iodo- and bromo-dUrd as well as iodo5 dCyd and bromo5 dCyd had good affinity to both enzymes. In contrast, vinyl5 Urd, iodo5 Urd and arabinosylthymidine had good affinity only to the Herpes simplex virus Type I enzyme but not to the Herpes simplex virus Type II deoxythymidine kinase. All of these thymidine analogs were competitive inhibitors, with KI values in the range of 0.25 to 1.5 muM. Herpes simplex virus Type I deoxythymidine kinase was less sensitive to either dTTP or iodo dUTP inhibition than Herpes simplex virus Type II. Both dThd and dCyd could serve as substrates and competed with each other for Herpes simplex viruses Type I and Type II induced kinases, but they differed in their Km values for these enzymes. The Km values of dThd and dCyd were 0.59 muM and 25 muM for Herpes simplex virus Type I deoxythymidine kinase; while they were 0.36 muM and 88 muM respectively for the Herpes simplex virus Type II enzyme.  相似文献   

3.
A real-time, simple and sensitive method for detection of nucleoside diphosphate (NDP) kinase activity has been developed. The assay is based on detection of ATP, generated in the NDP kinase reaction between a nucleoside triphosphate and adenosine diphosphate (ADP), by the firefly luciferase system. In the presence of 0.3 mM dGTP, the Km for ADP was found to be approximately 30 microM for the NDP kinase from Baker's yeast. In the presence of 250 microM ADP, the Km for dATP alpha S, dTTP alpha S, dGTP, dTTP, dCTP and GTP was found to be approximately 0.01, 0.03, 0.05, 0.25, 0.75 and 0.2 mM, respectively. The assay is sensitive and yields linear responses between 0.05-50 mU. The detection limit was found to be 0.05 mU of NDP kinase. The method was used to detect NDP kinase contamination in commercial enzyme preparations.  相似文献   

4.
The enzyme reaction mechanism and kinetics for biosyntheses of deoxycytidine triphosphate (dCTP) and deoxythymidine triphosphate (dTTP) from the corresponding deoxycytidine diphosphate (dCDP) and deoxythymidine diphosphate (dTDP) catalyzed by pyruvate kinase were studied. The kinetic model for the two synthetic reactions was found to follow the Bi–Bi random rapid equilibrium mechanism similar to that of the biosynthesis of deoxyadenosine triphosphate (dATP) and deoxyguanosine triphosphate (dGTP) from the corresponding deoxyadenosine diphosphate (dADP) and deoxyguanosine diphosphate (dGDP). Kinetic constants involved in the reactions including the maximum reaction velocity, the Michaelis–Menten constants, and the inhibition constants for dCTP and dTTP biosyntheses were experimentally determined. This enzyme reaction requires Mg2+ ion and the optimal Mg2+ concentration was also determined. The experimental results showed a good agreement with the simulation results obtained from the kinetic model developed. The kinetics of the four biosynthetic reactions for deoxynucleoside triphosphates (dNTP) including dATP, dGTP, dCTP, and dTTP from the corresponding deoxynucleoside diphosphates (dNDP) including dADP, dGDP, dCDP, and dTDP were analyzed. The results suggest that the binding kinetics of phosphoenolpyruvate (PEP) and pyruvate are similar for all four biosynthetic reactions. The affinity of the dNDP substrates to enzyme is of the same order of magnitude as the corresponding dNTP as inhibitors. The order of reactivity and substrate specificity for dNDP is dADP > dGDP > dCDP > dTDP in the pyruvate kinase (PK) reactions. The results obtained from this study can be applied to bioreactor design and production of dCTP and dTTP for biosynthesis of DNA at a significantly lower cost compared to the currently available chemical method.  相似文献   

5.
Treatment of L1210 cells with increasing concentrations of MNNG produces heterogeneous perturbations of cellular deoxynucleoside triphosphate pools, with the magnitude and direction of the shift depending on the deoxynucleotide and on the concentration and time of exposure of the DNA damaging agent. 5 microM MNNG stimulated an increase in dATP, dCTP and dTTP but dGTP pools remained constant. These increases were not affected by 3-aminobenzamide, indicating that the pool size increases were produced by poly(ADP-ribose) polymerase independent reactions. 30 microM MNNG caused a time dependent decrease in dATP, dGTP, dTTP and dCTP. The dGTP pool was most drastically affected, becoming totally depleted within 3 hours. The fall in all 4 dNTP pools was substantially prevented by 3-aminobenzamide, suggesting that the decrease in dNTPs following DNA damage is mediated by a poly(ADP-ribose) polymerase dependent reaction. Severe depression of dGTP pools consequent to NAD and ATP depletion may provide a metabolic pathway for rapidly stopping DNA synthesis as a consequence of DNA damage and the activation of poly(ADP-ribose) polymerase.  相似文献   

6.
Nucleoside-diphosphate kinase is an enzyme which catalyzes the phosphorylation of nucleoside diphosphates into the corresponding triphosphates for nucleic acid biosynthesis. In this communication, we describe the purification and characterization of nucleoside-diphosphate kinase from yeast. The purified protein appears to be homogeneous by sodium dodecyl sulfate-polyacrylamide gel analysis, with a molecular weight of about 17,000-18,000. An estimate from the fast protein liquid chromatography Superose 12 gel filtration shows a native molecular weight of about 68,000 to 70,000. The results suggest that yeast nucleoside-diphosphate kinase is composed of four subunits. Substrate specificity studies show that the relative activity of nucleoside diphosphates (NDP) as phosphate acceptors is in the order of dTDP greater than CDP greater than UDP greater than dUDP greater than GDP greater than or equal to dGDP greater than dCDP greater than dADP greater than ADP; and the relative activity of triphosphate donors is in the order of UTP greater than dTTP greater than CTP greater than dCTP greater than dATP greater than ATP greater than or equal to dGTP greater than GTP. The Km and Vm of dTDP, dGDP, dCDP, dUDP, CDP, and UDP have been determined. The rate constant studies indicate that the purified NDP kinase prefers using, to a slight extent, dTDP (approximately 800 min-1) as the substrate rather than other tested deoxyribo- and ribonucleotides (350-450 min-1). The broad substrate specificity and kinetic data suggest that the enzyme is involved in both DNA and RNA metabolism.  相似文献   

7.
Bacteriophage XP-12-infected Xanthomonas oryzae have been found to be a source of a kinase preparation which converts m5dCMP to m5dCDP and then to m5dCTP using ATP as the phosphate donor. Optimal formation of the triphosphate required the presence of creatine phosphate and creatine kinase. In the presence of dGTP, dTTP and dATP, Escherichia coli DNA polymerase I and T4 DNA polymerase catalyzed the incorporation of m5dCTP into DNA just as efficiently as that of dCTP. Neither dTMP nor dCMP served as substrate for the m5dCMP monophosphate kinase. Analogous preparations from uninfected X. oryzae were unable to phosphorylate m5dCMP.  相似文献   

8.
Pool sizes of dATP, dTTP, dGTP and dCTP were determined during the life cycle of Chlamydomonas using light-dark synchronized cultures. The pools of all four nucleotides were small until the start of the DNA synthesis, when they all increased in close time relationship with the increase in rate of DNA synthesis. The dTTP and dATP pools increased more than 200-fold while the pools of dCTP and dGTP expanded approx. 10 times.  相似文献   

9.
10.
Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) is an autosomal recessive disorder associated with multiple mutations in mitochondrial DNA, both deletions and point mutations, and mutations in the nuclear gene for thymidine phosphorylase. Spinazzola et al. (Spinazzola, A., Marti, R., Nishino, I., Andreu, A., Naini, A., Tadesse, S., Pela, I., Zammarchi, E., Donati, M., Oliver, J., and Hirano, M. (2001) J. Biol. Chem. 277, 4128-4133) showed that MNGIE patients have elevated circulating thymidine levels and they hypothesized that this generates imbalanced mitochondrial deoxyribonucleoside triphosphate (dNTP) pools, which in turn are responsible for mitochondrial (mt) DNA mutagenesis. We tested this hypothesis by culturing HeLa cells in medium supplemented with 50 microM thymidine. After 8-month growth, mtDNA in the thymidine-treated culture, but not the control, showed multiple deletions, as detected both by Southern blotting and by long extension polymerase chain reaction. After 4-h growth in thymidine-supplemented medium, we found the mitochondrial dTTP and dGTP pools to expand significantly, the dCTP pool to drop significantly, and the dATP pool to drop slightly. In whole-cell extracts, dTTP and dGTP pools also expanded, but somewhat less than in mitochondria. The dCTP pool shrank by about 50%, and the dATP pool was essentially unchanged. These results are discussed in terms of the recent report by Nishigaki et al. (Nishigaki, Y., Marti, R., Copeland, W. C., and Hirano, M. (2003) J. Clin. Invest. 111, 1913-1921) that most mitochondrial point mutations in MNGIE patients involve T --> C transitions in sequences containing two As to the 5' side of a T residue. Our finding of dTTP and dGTP elevations and dATP depletion in mitochondrial dNTP pools are consistent with a mutagenic mechanism involving T-G mispairing followed by a next-nucleotide effect involving T insertion opposite A.  相似文献   

11.
U von D?beln 《Biochemistry》1977,16(20):4368-4371
Ribonucleotide reductase is responsible for the production of deoxyribonucleotides by catalyzing the reduction of ribonucleoside diphosphates. The enzyme is allosterically regulated in a complex way by the nucleoside triphosphates, ATP, dTTP, dGTP, dCTP, and dATP. Ribonucleotide reductase consists of two nonidentical subunits, proteins B1 and B2. Both substrates and allosteric effectors bind exclusively to B1. Binding of protein B1 to dTTP or dATP covalently coupled to Sepharose and elution with concentration gradients of the different nucleoside triphosphate effectors gave information about (1) the arrangement of the effector binding sites on protein B1 and (2) the affinity of the effectors for these sites. Protein B1 thus has two classes of effector binding sites. One class binds all effectors, as demonstrated by elution of the protein from dTTP-Sepharose with dATP, dGTP, ATP, or dCTP. The second class binds only dATP or ATP, since dATP and ATP were the only nucleotides which eluted protein B1 from dATP-Sepharose. These results confirm earlier data obtained by dialysis binding experiments. The eluting concentrations obtained for the different nucleoside triphosphates in experiments with dTTP-Sepharose could be used to calculate unknown dissociation constants for protein B1 -effector binary complexes. This was possible, since a plot of the eluting concentrations vs. known dissociation constants was linear.  相似文献   

12.
Summary Using gel filtration chromatography, we find a single peak of deoxythymidine phosphorylating activity in Chlamydomonas reinhardti. This activity has characteristics of a thymidine kinase, in that (1) it will utilize ATP (or dATP) or CTP (or dCTP) as phosphoryl donor, but not AMP or phenyl phosphate, and (2) it is inhibited by dTTP (and less so by dTDP, dUTP, and dUDP) but is unaffected by 3–5 cyclic AMP.Partially purified Chlamydomonas thymidine kinase has a pH optimum near 8.5, and a molecular weight of 80,000 to 85,000 daltons. Kinetic studies indicate a ping-pong mechanism with a Km for thymidine of 1.5x10-7 moles per liter. 5-Bromo-and 5-fluorodeoxyuridine, and to a lesser degree deoxyuridine, are competitive inhibitors, but significant phosphorylation of these nucleosides could not be demonstrated in vitro by thymidine kinase.While thymidine is phosphorylated to dTMP by crude Chlamydomonas extracts, greater than 80% of the product formed by the partially purified enzyme is dTTP. Further, the gel filtration elution position of the single deoxythymidylate kinase activity present in cell extracts coincides with that of thymidine kinase. These results suggest that a multifunctional enzyme, rather than three separate phosphorylating activities, may be responsible for dTTP formation.Abbreviations MES 2(N-morpholino) ethanesulfonic acid - TES N-tris (hydroxymethyl) methyl-2-amino ethanesulfonic acid - tris tris-hydroxyamino methane - NEM N-ethyl maleimide - PEI polyethyleneimine - TLC thin-layer chromatography; nucleotides abbreviated by CBN rules  相似文献   

13.
Hydroxyurea (HU) causes inhibition of DNA synthesis in regenerating rat liver due to an inhibition of the ribonucleotide reductase. We studied the consequences of a continuous HU infusion for deoxyribonucleoside triphosphate (dNTP) pools in the liver after partial hepatectomy and tried to modify imbalances by application of deoxyribonucleosides in vivo. In normal liver, an intracellular concentration of 0.16, 0.84, 0.33 and 0.27 pmol/micrograms DNA was observed for dATP, dCTP, dGTP and dTTP, respectively. In regenerating liver the dNTP pools show minor changes until 18 h after partial hepatectomy. During and after a continuous HU infusion 14--24 h after partial hepatectomy, the intracellular dNTP pools change considerably. At 19.5 h after partial hepatectomy, 5.5 h after the start of HU infusion, and at 25 h after partial hepatectomy, 1 h after termination of HU infusion, the dTTP pool was more than 10-times, and the dGTP pool about 2-times higher than in controls, while the dATP and dCTP pools remain relatively unchanged. Simultaneous infusion of HU and deoxythymidine (dThd) 14--25 h after partial hepatectomy results in a further increase of the dTTP pool during and after HU infusion. Administration of deoxycytidine (dCyd) leads to a moderate increase of the dCTP pool and a weak decrease of the dTTP pool during HU infusion. The combined application of dCyd and dThd after HU infusion had similar effects on dNTP pools as observed with dThd alone. These results show that intracellular pools of dNTPs in hepatocytes can be altered by exogenous factors in a controlled pattern. This system can be used as a model for studying the implications of induced dNTP pool dysbalances for the initiation of liver carcinogenesis by mutagenic chemicals.  相似文献   

14.
Hydroxyurea, an inhibitor of ribonucleotide reductase, blocks replication of vaccinia virus. However, when medium containing hydroxyurea and dialyzed serum was supplemented with deoxyadenosine, the block to viral reproduction was circumvented, provided that an inhibitor of adenosine deaminase was also present. Deoxyguanosine, deoxycytidine, and deoxythymidine were ineffective alone and did not augment the deoxyadenosine effect. In fact, increasing concentrations of deoxyguanosine and deoxythymidine, but not deoxycytidine, eliminated the deoxyadenosine rescue, an effect that was reversed by the addition of low concentrations of deoxycytidine. These results suggested that the inhibition of viral replication by hydroxyurea was primarily due to a deficiency of dATP. Deoxyribonucleoside triphosphate pools in vaccinia virus-infected cells were measured at the height of viral DNA synthesis after a synchronous infection. With 0.5 mM hydroxyurea, the dATP pool was greater than 90% depleted, the dCTP and dGTP pools were 40 to 50% reduced, and the dTTP pool was increased. Assay of ribonucleotide reductase activity in intact virus-infected cells suggested that hydroxyurea may differentially affect reduction of the various substrates of the enzyme.  相似文献   

15.
Eukaryotic cells contain a delicate balance of minute amounts of the four deoxyribonucleoside triphosphates (dNTPs), sufficient only for a few minutes of DNA replication. Both a deficiency and a surplus of a single dNTP may result in increased mutation rates, faulty DNA repair or mitochondrial DNA depletion. dNTPs are usually quantified by an enzymatic assay in which incorporation of radioactive dATP (or radioactive dTTP in the assay for dATP) into specific synthetic oligonucleotides by a DNA polymerase is proportional to the concentration of the unknown dNTP. We find that the commonly used Klenow DNA polymerase may substitute the corresponding ribonucleotide for the unknown dNTP leading in some instances to a large overestimation of dNTPs. We now describe assay conditions for each dNTP that avoid ribonucleotide incorporation. For the dTTP and dATP assays it suffices to minimize the concentrations of the Klenow enzyme and of labeled dATP (or dTTP); for dCTP and dGTP we had to replace the Klenow enzyme with either the Taq DNA polymerase or Thermo Sequenase. We suggest that in some earlier reports ribonucleotide incorporation may have caused too high values for dGTP and dCTP.  相似文献   

16.
The biochemical mechanism of lymphocyte dysfunction with adenosine deaminase deficiency has been investigated using cultured phytohemagglutinin stimulated normal peripheral blood lymphocytes and the adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin. The addition of deoxyadenosine to ADA-inhibited (but not to uninhibited) cells generated increased dATP pools (up to 50-fold greater than controls) and depressed the mitogen response. dATP Accumulation was accompanied by depletion of the other three deoxynucleoside triphosphate (dNTP) pools (dTTP, dCTP, and dGTP). Suppression of the mitogen response could be prevented ("reversed") to 90% of control levels by the addition of deoxynucleoside precursors for the depleted dNTPs at the initiation of mitogen stimulation. "Reversal" restored the dTTP and possibly the dGTP pools. Thus the mechanism of toxicity in this model appears to be inhibition of ribonucleotide reductase by massive accumulation of dATP, resulting in starvation for the other three deoxyribonucleoside triphosphates. "Reversibility" of this toxicity by providing sources for the missing three deoxynucleoside triphosphates argues for ribonucleotide reductase inhibition rather than other mechanisms of deoxyadenosine toxicity in this model.  相似文献   

17.
Deoxyribonucleotide metabolism in Herpes simplex virus infected HeLa cells.   总被引:1,自引:0,他引:1  
The effect of Rolly No. 11 strain herpes simplex virus infection of HeLa cells in culture on deoxynucleotide metabolism and the level of various enzymes concerned with the biosynthesis of DNA has been investigated. Of 18 enzyme activities studied, thymidine kinase, DNA polymerase and deoxyribonuclease were markedly augmented, a finding in agreement with previous reports. Deoxycytidine kinase, ribonucleotide reductase, thymidylate kinase and deoxycytidylate deaminase activities, in contrast with previous reports, did not increase; the activities of the other enzymes studied, also did not increase. Whereas most of the radioactivity derived from [14-C] thymidine in the acid-soluble fraction of the uninfected cells was present as deoxythymidine triphosphate, that present in the infected cells was primarily in the form of deoxythymidine monophosphate. Thus, in the infected cell deoxythymidylate kinase is a rate-limiting enzyme in the biosynthesis of deoxythymidine triphosphate. A marked increase in the pools of the four naturally occurring deoxynucleoside triphosphates (dTTP, dCTP, dATP, dGTP) was found. The rate of formation of the virus-induced enzymes was determined, as were the various nucleoside triphosphate pools and the other phosphorylated derivatives of thymidine; a maximum was reached for all these csmponents between 6 to 8 h post infection. Although an apparent greater synthesis of DNA occurred in the uninefected cells, when the specific activity of the radioactive deoxythymidine triphosphate was taken into account, there was actually a greater rate of DNA synthesis in the infected cells, with the peak at 8 h post infection.  相似文献   

18.
Two distinct deoxyguanosine kinase activities have been identified in calf thymus tissue. They can be differentiated by subcellular location, electrophoretic mobility, chromatographic behavior, nucleoside specificity, apparent Km values, and end product inhibition. After a 130-fold purification from mitochondrial extract, the newly discovered kinase was specific primarily for deoxyguanosine and deoxyinosine. Unlike the cytosol enzyme, which proved to be the broadly specific deoxycytidine kinase studied previously, the mitochondrial enzyme does not phosphorylate deoxycytidine. Its apparent Km for deoxyguanosine, 6 micromolar, is 2 orders of magnitude lower than that of the cytosol enzyme. The mitochondrial enzyme is strongly inhibited by dGTP and dITP and activated up to 6-fold by dTDP and UDP, whereas neither dCTP nor dATP had much effect.  相似文献   

19.
The physical basis of ATP binding and activation of DNA polymerase III holoenzyme was studied by an ultraviolet irradiation cross-linking technique. ATP and dATP were photocrosslinked to the alpha, tau, gamma, and delta subunits of holoenzyme; photocrosslinking of dATP was competitively inhibited by ATP. No photocrosslinking was observed with GTP or CTP, nor did GTP, CTP, or UTP inhibit cross-linking of ATP. ADP and adenosine 5'-O-(3-thio)-triphosphate, both potent inhibitors of ATP activation of holoenzyme, inhibited cross-linking of ATP to tau, gamma, and delta subunits, but not to the alpha subunit, suggesting that one or more of these subunits are ATP (or dATP)-binding sites. Photocrosslinking of dTTP to the ATP-activated holoenzyme was exclusively to the epsilon subunit, the dnaQ ( mutD ) gene product; dCTP and dGTP were not photocrosslinked to any subunit. Binding of dTTP was enhanced by ATP, but by no other nucleotide (or deoxynucleotide). This binding of dTTP to epsilon, a subunit likely responsible for regulation of proofreading by the holoenzyme, may function in the control of the fidelity of replication.  相似文献   

20.
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