Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have shown that deoxycytidine-5'-triphosphate modified by O-(4-aminobutyl)hydroxylamine in the pyrimidine ring, is effectively incorporated into DNA synthesizing in vitro, replacing deoxythymidine-5'-triphosphate or deoxycytidine-5'-triphosphate and inducing A-->G and G-->A transitions, respectively. UV spectroscopy and NMR spectroscopy have shown that the modified cytidine-5'-triphosphate is identical to N4-(4-aminobutoxy)-2'-deoxycytidine-5'-triphosphate. When the modified deoxycytidine-5'-triphosphate was inserted into DNA in vitro by DNA polymerase I of E. coli Klenow fragment, retardation sites correlating with poly-A sites (when the modified triphosphate replaced deoxythymidine-5'-triphosphate) or with poly-G sites (when it replaced deoxycytidine-5'-triphosphate) were revealed. Our data show high mutagenic effect of the modified deoxycytidine-5'-triphosphate inserted into DNA, allowing us to recommend this compound for localized static mutagenesis.
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PMID:[The mutagenic activity of N4-(4-aminobutoxy)-2'-deoxycytidine-5'-triphosphate]. 778 36

Reductively-activated mitomycin C (MC) presents a high specificity to the 5'-CG site and to a lesser extent the 5'-GG site. However, its affinity is different for each 5'-CG site. This was evidenced by using the 3'-5' exonuclease activity of T4 DNA polymerase on a short DNA fragment exposed to MC, which was gradually activated by several Na2S2O4 additions. The time-delayed appearance of some exonuclease digestion stop sites (corresponding to MC-monofunctional adducts) suggests that MC discriminates between very fine structural variations. The feature of the stop sites suggests a good fit of MC in the DNA groove, in the case of the major alkylation sites, but not in the case of a minor 5'-TG alkylation site. Furthermore, it is evidenced by the use of the chemical probe hydroxylamine (HA) that MC-monoalkylation of 5'-CG (or 5'-GG) does not induce notable local structural disturbance of the DNA double helix, as opposed to alkylation of the 5'-TG site of minor specificity, which leads to significant local DNA distortion. This suggests that the 'in vivo' effect of MC is related, not only to amount of alkylated sites (essentially 5'-CG sites), but also to possible local DNA deformations (at minor alkylation sites).
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PMID:Mitomycin C-induced distortions of DNA at minor alkylation sites. 782 Aug 85

A major problem in the application of polymerase chain reaction (PCR) in diagnostic laboratories is contamination with exogenous nucleic acid, especially aerosolized amplicon, from previous PCR. Although several pre- and post-PCR sterilization techniques have been proposed, an optimal sterilization technique is not yet available. Hydroxylamine hydrochloride is a mutagenic agent that binds to and chemically modifies DNA. In the present study PCR was performed on DNA extracted from Herpes simplex virus (HSV) and Borrelia burgdorferi with two sets of primers that amplified a 92 bp sequence unique to HSV DNA polymerase gene and a 156 bp sequence unique to B. burgdorferi Osp-A gene (35 cycles). Following the amplification, PCR products were treated with 0-500 mM hydroxylamine hydrochloride and incubated at room temperature for 30 min. One microlitre of each hydroxylamine treated PCR product was reamplified for an additional 35 cycles. Pre- and post-hydroxylamine treated PCR products were separated by electrophoresis in 3% agarose gel. Hydroxylamine, at a concentration of 250 mM or higher, was found to effectively modify PCR products and prevent their amplification in subsequent PCR.
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PMID:Application of hydroxylamine hydrochloride for post-PCR sterilization. 839 42

Protein splicing involves the self-catalyzed formation of a branched intermediate, which then resolves into the excised intervening sequence and the spliced protein. A possible mechanism for branched intermediate formation is an N-O rearrangement of the peptide bond involving the amino group of the conserved serine/cysteine residue at the upstream splice junction to yield a linear peptide ester intermediate. This possibility was examined in using an in vitro splicing system involving the intervening sequence from the DNA polymerase of the extremely thermophilic archeon, Pyrococcus sp. GB-D. Because thioesters react much more rapidly with nitrogen nucleophiles at neutral pH than do oxygen esters, protein-splicing precursors in which the serine residue of interest was replaced by cysteine were constructed and purified. In the presence of 0.25 M hydroxylamine or 0.1 M ethylene diamine at pH 6 or higher, these constructs underwent rapid cleavage at the upstream splice junction, consistent with the aminolysis of a thioester. The site of hydroxylaminolysis was identified by analysis of the C-terminus of the polypeptide cleavage products. Comparison of the C-terminal peptide hydroxamate with the synthetic peptide hydroxamates with respect to chromatographic mobility, colorimetric assay, amino acid composition, and high-resolution mass spectrometry showed that the hydroxylamine-sensitive site in the splicing precursor was the peptide bond adjacent to the serine residue at the upstream splice junction. These results provide evidence that the peptide bond at the upstream splice junction can undergo a self-catalyzed N-O or N-S acyl rearrangement to yield a linear polypeptide ester intermediate and suggest that this kind of rearrangement constitutes the first step in protein splicing.
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PMID:Protein splicing: evidence for an N-O acyl rearrangement as the initial step in the splicing process. 862 3

A peptide fragment comprising the first 83 residues from the N-terminus of E. coli thioredoxin is purified by hydroxylamine cleavage of the intact protein. At physiological pH, the secondary and tertiary structure contents of the peptide are 70 and 35%, respectively, compared to the intact protein. Peptide 83 is able to display dual biological functions of thioredoxin, namely, a substrate for the enzyme E. coli thioredoxin-reductase and a processivity factor of T7 DNA polymerase. At present, peptide 83 represents the minimum functional and folding unit of thioredoxin. The highly conserved residue Phe 81 appears to play an important role in the folding of peptide 83, as judged from the packing analysis. Peptide 83 also mimics a particular kinetic folding intermediate of thioredoxin in terms of spectral properties and may serve as an equilibrium peptide model for the former.
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PMID:Minithioredoxin: a folded and functional peptide fragment of thioredoxin. 1044 85

Hydroxyurea, hydroxyurethane, and dihydroxyurea inhibit incorporation of thymidine into the DNA of monolayers of HeLa cells. They do not affect incorporation of uridine into RNA or of leucine into protein. In contrast, hydroxylamine inhibits cellular incorporation of all three precursors: thymidine, uridine, and leucine. Hydroxyurea does not affect thymidine kinase, thymidylate kinase, or DNA polymerase reactions, but it does inhibit incorporation of cytidylic and guanylic acids into DNA in cell-free supernatants.
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PMID:HYDROXYUREA: INHIBITORY EFFECT ON DNA METABOLISM. 1420 79

2-Amino-3-methylimidazo[1,2-d]naphthalene (cIQ) is a carbocyclic analogue of the dietary carcinogen 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) in which a naphthalene ring system replaces the quinoline unit of IQ. The activity of cIQ in Ames Salmonella typhimurium tester strain TA98 is known to be 4-5 orders of magnitude lower than IQ. cIQ undergoes efficient bioactivation with rat liver microsomes. The C8-dGuo adduct was formed when calf thymus DNA was treated with the N-hydroxy-cIQ metabolite and either acetic anhydride or extracts from cells that overexpress N-acetyl transferase (NAT). These studies indicate that bioactivation, the stability of the N-hydroxylamine ester, and the reactivity of the nitrenium ion with DNA of cIQ are similar to IQ and that none of these factors account for the differences in mutagenic potency of these analogues in Ames assays. Oligonucleotides were synthesized that contain the C8-dGuo adduct of cIQ in the frameshift-prone CG-dinucleotide repeat unit of the NarI recognition sequence. We have examined the in vitro translesion synthesis of this adduct and have found it to be a strong replication block to Escherichia coli DNA polymerase I, Klenow fragment exo(-) (Kf(-)), E. coli DNA polymerase II exo(-) (pol II(-)), and Sulfolobus solfataricus P2 DNA polymerase IV (Dpo4). Previous studies by Fuchs and co-workers identified E. coli pol II as the polymerase responsible for two-base deletions of the C8-dGuo adduct of N-acetyl-2-aminofluorene in the NarI sequence. Our observation that pol II is strongly inhibited by the C8-dGuo adduct of cIQ suggests that one of the other SOS inducible polymerases (E. coli pol IV or pol V) is required for its bypass, and this accounts for the greatly attenuated mutagenicity in the Ames assays as compared with IQ.
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PMID:The C8-2'-deoxyguanosine adduct of 2-amino-3-methylimidazo[1,2-d]naphthalene, a carbocyclic analogue of the potent mutagen 2-amino-3-methylimidazo[4,5-f]quinoline, is a block to replication in vitro. 2037 78

A highly sensitive and selective chemiluminescent (CL) biosensor for adenosine triphosphate (ATP) was developed by taking advantage of the ATP-dependent enzymatic reaction (ATP-DER), the powerful signal amplification capability of rolling circle amplification (RCA), and hydroxylamine-amplified gold nanoparticles (Au NPs). The strategy relies on the ability of ATP, a cofactor of T4 DNA ligase, to trigger the ligation-RCA reaction. In the presence of ATP, the T4 DNA ligase catalyzes the ligation reaction between the two ends of the padlock probe, producing a closed circular DNA template that initiates the RCA reaction with phi29 DNA polymerase and dNTP. Therein, many complementary copies of the circular template can be generated. The ATP-DER is eventually converted into a detectable CL signal after a series of processes, including gold probe hybridization, hydroxylamine amplification, and oxidative gold metal dissolution coupled with a simple and sensitive luminol CL reaction. The CL signal is directly proportional to the ATP level. The results showed that the detection limit of the assay is 100 pM of ATP, which compares favorably with those of other ATP detection techniques. In addition, by taking advantage of ATP-DER, the proposed CL sensing system exhibits extraordinary specificity towards ATP and could distinguish the target molecule ATP from its analogues. The proposed method provides a new and versatile platform for the design of novel DNA ligation reaction-based CL sensing systems for other cofactors. This novel ATP-DER based CL sensing system may find wide applications in clinical diagnosis as well as in environmental and biomedical fields.
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PMID:A cascade amplification strategy based on rolling circle amplification and hydroxylamine amplified gold nanoparticles enables chemiluminescence detection of adenosine triphosphate. 2489 64

2-Formyl-2'-deoxyadenosine triphosphate (dCHO ATP) was synthesized and tested as a substrate in enzymatic synthesis of DNA modified in the minor groove with a reactive aldehyde group. The multistep synthesis of dCHO ATP was based on the preparation of protected 2-dihydroxyethyl-2'-deoxyadenosine intemediate, which was triphosphorylated and converted to aldehyde through oxidative cleavage. The dCHO ATP triphosphate was a moderate substrate for KOD XL DNA polymerase, and was used for enzymatic synthesis of some sequences using primer extension (PEX). On the other hand, longer sequences (31-mer) with higher number of modifications, or sequences with modifications at adjacent positions did not give full extension. Single-nucleotide extension followed by PEX was used for site-specific incorporation of one aldehyde-linked adenosine into a longer 49-mer sequence. The reactive formyl group was used for cross-linking with peptides and proteins using reductive amination and for fluorescent labelling through oxime formation with an AlexaFluor647-linked hydroxylamine.
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PMID:2-Formyl-dATP as Substrate for Polymerase Synthesis of Reactive DNA Bearing an Aldehyde Group in the Minor Groove. 3249 2


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