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1.
Based on available structural studies, a model is presented for polymerization dynamics of mammalian family X DNA polymerases, including polymerases β, λ, μ, and terminal deoxynucleotidyl transferase (TdT). Using the model, distinct polymerization activities and processivities of the four polymerases acting on different forms of DNA substrate are analyzed and studied theoretically. A “gradient” of template dependence of polymerases β, λ, μ, and TdT is well explained. The much higher occurrence frequencies of the −1 frameshift DNA synthesis by pols λ and μ than that by pol β are well explained. The theoretical results on the polymerization processivities are also in agreement with the available experimental data.  相似文献   

2.
Variotin (1) and three novel compounds, formosusin A (2), B (3), and C (4), were isolated from the cultures of the fungus Paecilomyces formosus, and their structures were determined by spectroscopic analyses. Compound 2 is (6Z,8E,10E)-variotin, a new cis-olefin analog of compound 1. Compound 2 selectively inhibited the activity of mammalian DNA polymerase β (pol β) in vitro, with an IC50 of 35.6 μM. By contrast, compounds 1, 3, and 4 did not influence the activity of pol β. These four compounds showed no effect on the activities of other 10 mammalian pols (i.e., pols α, γ, δ, ε, η, ι, κ, λ, and μ, and terminal deoxynucleotidyl transferase). These compounds also did not inhibit the activities of fish, insect, plant, and prokaryotic pols and other DNA metabolic enzymes tested. These results suggested that compound 2 could be a selective inhibitor of mammalian pol β. The compound 2-induced inhibition of rat pol β activity was competitive and non-competitive with respect to the DNA template–primer substrate and the dNTP substrate, respectively. On the basis of these results, the relationship between the three-dimensional structure and pol β inhibitory mechanism of compound 2 is discussed.  相似文献   

3.
4.
5.
Compound I of myeloperoxidase   总被引:2,自引:0,他引:2  
Diadenosine 5′,5?-P1,P4-tetraphosphate (Ap4A) was found to strongly and specifically inhibit the activity of terminal deoxynucleotidyl transferase (TdT) from calf thymus, whereas Ap4A had no remarkable effect on the activities of mouse DNA polymerases α, β and γ. Kinetic studies revealed that the inhibition of TdT by Ap4A was due to competition with substrate deoxynucleoside triphosphate(s). Thus, Ap4A might block the substrate binding site of TdT.  相似文献   

6.
A number of error-prone DNA polymerases have been found in various eukaryotes, ranging from yeasts to mammals, including humans. According to partial homology of the primary structure, they are grouped into families B, X, and Y. These enzymes display a high infidelity on an intact DNA template, but they are accurate on a damaged template. Error-prone DNA polymerases are characterized by probabilities of base substitution or frameshift mutations ranging from 10?3 to 7.5 · 10?1 in an intact DNA, whereas the spontaneous mutagenesis rate per replicated nucleotide varies between 10?10 and 10?12. Low-fidelity polymerases are terminal deoxynucleotidyl transferase (TdT) and DNA polymerases β, ζ, κ, η, ι, λ, μ, and Rev1. The main characteristics of these enzymes are reviewed. None of them exhibits proofreading 3′ → 5′ exonuclease (PE) activity. The specialization of these polymerases consists in their capacity for synthesizing opposite DNA lesions (not eliminated by the numerous repair systems), which is explained by the flexibility of their active centers or a limited ability to express TdT activity. Classic DNA polymerases α, δ, ε, and γ cannot elongate primers with mismatched nucleotides at the 3′-end (which leads to replication block), whereas some specialized polymerases can catalyze this elongation. This is accompanied by overcoming the replication block, often at the expense of an increased mutagenesis rate. How can a cell exist under the conditions of this high infidelity of many DNA polymerase activities? Not all tissues of the body contain a complete set of low-fidelity DNA polymerases, although some of these enzymes are vitally important. In addition, cells “should not allow” error-prone DNA polymerases to work on undamaged DNA. After a lesion on the DNA template is bypassed, the cell should switch over from DNA synthesis catalyzed by specialized polymerases to the synthesis catalyzed by relatively high-fidelity DNA polymerases δ and ? (with an error frequency of 10?5 to 10?6) as soon as possible. This is done by forming complexes of polymerase δ or ? with proliferating cell nuclear antigen (PCNA) and replication factors RP-A and RF-C. These highly processive complexes show a greater affinity to correct primers than specialized DNA polymerases do. The fact that specialized DNA polymerases are distributive or weakly processive favors the switching. The fidelity of these polymerases is increased by the PE function of DNA polymerases δ and ε, as well as autonomous 3′ → 5′ exonucleases, which are widespread over the entire phylogenetic tree of eukaryotes. The exonuclease correction decelerates replication in the presence of lesions in the DNA template but increases its fidelity, which decreases the probability of mutagenesis and carcinogenesis.  相似文献   

7.
In the present study, we investigated mammalian polymerases that consecutively incorporate various fluorophore-labeled nucleotides. We found that rat DNA polymerase β (pol β) consecutively incorporated fluorophore-labeled nucleotides to a greater extent than four bacterial polymerases, Sequenase Version 2.0, VentR (exo-), DNA polymerase IIIα and the Klenow fragment, and the mammalian polymerases DNA polymerase α and human DNA polymerase δ, under mesophilic conditions. Furthermore, we investigated the kinetics of correct or mismatched incorporation with labeled nucleotides during synthesis by rat pol β. The kinetic parameters Km and kcat were measured and used for evaluating: (i) the discrimination against correct pair incorporation of labeled nucleotides relative to unlabeled nucleotides; and (ii) the fidelity for all nucleotide combinations of mismatched pairs in the presence of labeled or unlabeled nucleotides. We also investigated the effect of fluorophore-labeled nucleotides on terminal deoxynucleotidyl transferase activity of rat pol β. We have demonstrated for the first time that mammalian pol β can consecutively incorporate various fluorophore-labeled dNTPs. These findings suggest that pol β is useful for high-density labeling of DNA probes and single-molecule sequencing for high-speed genome analysis.  相似文献   

8.
DNA polymerases (pols) catalyse the synthesis of DNA. This reaction requires a primer-template DNA in order to grow from the 3'OH end of the primer along the template. On the other hand terminal deoxyribonucleotidyl transferase (TdT) catalyses the addition of nucleotides at the 3'OH end of a DNA strand, without the need of a template. Pol lambda and pol micro are ubiquitous enzymes, possess both DNA polymerase and terminal deoxyribonucleotidyl transferase activities and belong to pol X family, together with pol beta and TdT. Here we show that pol lambda, pol micro and TdT, all possess the ability to synthesise in vitro short fragments of DNA in the absence of a primer-template or even a primer or a template in the reaction. The DNA synthesised de novo by pol lambda, pol micro and TdT appears to have an unusual structure. Furthermore we found that the amino acid Phe506 of pol lambda is essential for the de novo synthesis. This novel catalytic activity might be related to the proposed functions of these three pol X family members in DNA repair and DNA recombination.  相似文献   

9.
5-(Hydroxymethyl)-2-furfural (HMF), a pyrolysate of carbohydrate isolated from instant coffee (Coffea arabica L.), selectively inhibits the activities of mammalian DNA polymerase lambda (pol lambda) and terminal deoxynucleotidyltransferase (TdT) which are family X pols, in vitro. The compound influenced neither the activities of replicative DNA polymerases such as alpha, delta, and epsilon, nor even the activity of pol beta which is from the same family and thought to have a very similar three-dimensional structure to the pol beta-like region of pol lambda. Since parts of HMF such as furan, furfuryl alcohol, and 2-furaldehyde did not influence the activities of any enzymes tested, the substituted form of furan with a hyroxymethyl group and a formyl group might be important for the inhibition of pol lambda and TdT. The inhibitory effect of HMF on intact pol lambda (i.e., residues 1-575), a truncated pol lambda lacking the N-terminal BRCA1 C-terminus domain (133-575, del-1 pol lambda) and another truncated pol lambda lacking the N-terminal proline-rich region (245-575, del-2 pol lambda) was dose-dependent, and 50% inhibition was observed at a concentration of 26.1, 10.3, and 4.6 microM, respectively. The IC(50) value of HMF for TdT was the same as that for del-2 pol lambda (5.5 microM). The HMF-induced inhibition of both pol lambda and TdT activities was competitive with respect to both the DNA template-primer and the dNTP substrate. On the basis of these results, HMF was suggested to bind to the pol beta-like region of pol lambda and TdT.  相似文献   

10.
Phosphonoacetate was found to be an inhibitor of the DNA polymerase α from three human cells, HeLa, Wi-38, and phytohemagglutinin-stimulated lymphocytes. The inhibition patterns were determined. The apparent inhibition constants (Kii) were about 30 μm. Thus the DNA polymerase α is 15 to 30 times less sensitive to Phosphonoacetate than the herpesvirus-induced DNA polymerase. The DNA polymerase α from Chinese hamster ovary cells and calf thymus was also inhibited. The DNA polymerases β and γ from the eucaryotic cells were relatively insensitive to phosphonoacetate. The sensitivity of the DNA polymerase α and the relative insensitivity of the DNA polymerase β and γ appeared to be general characteristics of the vertebrate polymerases, DNA polymerases from two other eucaryotic cells, yeast DNA polymerase A and B and tobacco cell DNA polymerase, were inhibited by phosphonoacetate, and to about the same extent as the α-polymerases. Fourteen phosphonate analogs were examined for inhibition of the HeLa DNA polymerase α. Only one, phosphonoformate, was an inhibitor. The mechanism of inhibition for phosphonoformate was analogous to that for phosphonoacetate.  相似文献   

11.
Abstract

N2-(p-n-Octylphenyl)-2′-deoxyguanosine 5′-triphosphate (OctPdGTP)has been synthesized chemically. OctPdGTP inhibited DNA polymerases (pol) α, δ and ε from calf thymus, with moderate selectivity for pol α. Mechanistic studies on pol α and bacteriophage T4 DNA polymerase revealed competitive and mixed kinetics of OctPdGTP with respect to the substrate dGTP when the enzymes were assayed on activated DNA and oligo dT:poly dA, respectively.

  相似文献   

12.
13.
Thirty-eight chalcone derivatives bearing a chromen or benzo[f]chromen moiety were synthesized and evaluated for their anti-inflammatory and analgesic activities. Using an ear edema model, anti-inflammatory activities were observed for compounds 3a-3s (ear inflammation: 1.75–3.71 mg) and 4a-4s (ear inflammation: 1.71–4.94 mg). All compounds also displayed analgesic effects with inhibition values of 66.7–100% (3a-3s) and 96.2–100% (4a-4s). The 12 compounds that displayed excellent anti-inflammatory and analgesic effects were tested for their inhibitory activity against ovine COX-1 and COX-2. Six compounds bearing a chromen moiety were weak inhibitors of the COX-1 isozyme but showed moderate COX-2 isozyme inhibitory effects (IC50s from 0.37 μM to 0.83 μM) and COX-2 selectivity indexes (SI: 22.49–9.34). Those bearing a benzo[f]chromen moiety were more selective toward COX-2 than those bearing a chromen moiety with IC50s from 0.25 μM to 0.43 μM and COX-2 selectivity indexes from SI: 31.08 to 20.67.  相似文献   

14.
15.
16.
DNA polymerase III (DNA pol III) efficiently replicates the Escherichia coli genome, but it cannot bypass DNA damage. Instead, translesion synthesis (TLS) DNA polymerases are employed to replicate past damaged DNA; however, the exchange of replicative for TLS polymerases is not understood. The umuD gene products, which are up-regulated during the SOS response, were previously shown to bind to the α, β and ε subunits of DNA pol III. Full-length UmuD inhibits DNA replication and prevents mutagenic TLS, while the cleaved form UmuD' facilitates mutagenesis. We show that α possesses two UmuD binding sites: at the N-terminus (residues 1-280) and the C-terminus (residues 956-975). The C-terminal site favors UmuD over UmuD'. We also find that UmuD, but not UmuD', disrupts the α-β complex. We propose that the interaction between α and UmuD contributes to the transition between replicative and TLS polymerases by removing α from the β clamp.  相似文献   

17.
Vitamin B(6) compounds such as pyridoxal 5(')-phosphate (PLP), pyridoxal (PL), pyridoxine (PN), and pyridoxamine (PM), which reportedly have anti-angiogenic and anti-cancer effects, were thought to be inhibitors of some types of eukaryotic DNA polymerases. PL moderately inhibited only the activities of calf DNA polymerase alpha (pol alpha), while PN and PM had no inhibitory effects on any of the polymerases tested. On the other hand, PLP, a phosphated form of PL, was potentially a strong inhibitor of pol alpha and epsilon from phylogenetic-wide organisms including mammals, fish, insects, plants, and protists. PLP did not suppress the activities of prokaryotic DNA polymerases such as Escherichia coli DNA polymerase I and Taq DNA polymerase, or DNA-metabolic enzymes such as deoxyribonuclease I. For pol alpha and epsilon, PLP acted non-competitively with the DNA template-primer and competitively with the nucleotide substrate. Since PL was converted to PLP in vivo after being incorporated into human cancer cells, the anti-angiogenic and anti-cancer effects caused by PL must have been caused by the inhibition of pol alpha and epsilon activities after conversion to PLP.  相似文献   

18.
19.
Mammalian DNA polymerase (pol) β is the founding member of a large group of DNA polymerases now termed the X-family. DNA polymerase β has been kinetically, structurally, and biologically well characterized and can serve as a phylogenetic reference. Accordingly, we have performed a phylogenetic analysis to understand the relationship between pol β and other members of the X-family of DNA polymerases. The bacterial X-family DNA polymerases, Saccharomyces cerevisiae pol IV, and four mammalian X-family polymerases appear to be directly related. These enzymes originated from an ancient common ancestor characterized in two Bacillus species. Understanding distinct functions for each of the X-family polymerases, evolving from a common bacterial ancestor is of significant interest in light of the specialized roles of these enzymes in DNA metabolism.  相似文献   

20.
Nowadays, diabetes and its associated inflammatory complications are important public health problems worldwide. Market limitations of drugs with dual actions as anti-inflammatory (AI) and anti-diabetic have been led to a temptation for focusing on the discovery and development of new compounds with potential AI and anti-diabetic activities. Herein, we synthesized two new series containing pyrazole ring with vicinal diaryl rings as selective COX-2 moiety and thiazolidindione (series 12a-f) or thiazolidinone (series 13a-f) as anti-diabetic moiety and the two moieties were linked together with methylene or methylenehydrazone functionality. The two series were evaluated for their COX inhibition, AI activity and ulcerogenic liability and for the anti-diabetic activity; 12a-f and 13a-f were assessed in vitro against α-glucosidase, β- glucosidase, in vivo hypoglycemic activity (one day and 15 days studies) in addition to PPARγ activation study. Four compounds (12c, 12f, 13b and 13f) had higher COX-2 S.I. (8.69–9.26) than the COX-2 selective drug celecoxib (COX-2 S.I. = 8.60) and showed the highest AI activities and the lowest ulcerogenicity than other derivatives. Also, two thiazolidindione derivatives 12e and 12f and two thiazolidinone derivatives 13b and 13c showed higher inhibitory activities against α- and β-glucosidase (% inhibitory activity = 62.15, 55.30, 65.37, 59.08 for α-glucosidase and 57.42, 60.07, 58.19, 66.90 for β-glucosidase respectively) than reference compounds (acarbose with % inhibitory activity = 49.50 for α-glucosidase and d-saccharic acid 1,4-lactone monohydrate with % inhibitory activity = 53.42 for β-glucosidase) and also showed good PPAR-γ activation and good hypoglycemic effect in comparison to pioglitazone and rosiglitazone. Moreover, Shape comparison and docking studies were carried out to understand their interaction and similarity with standard drugs.  相似文献   

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