437 resultados para Adducts


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Formaldehyde is produced in most living systems and is present in the environment. Evidence that formaldehyde causes cancer in experimental animals infers that it may be a carcinogenic hazard to humans. Formaldehyde reacts with the exocyclic amino group of deoxyguanosine, resulting in the formation of N2-methyl-2′-deoxyguanosine (N2-Me-dG) via reduction of the Schiff base. The same reaction is likely to occur in living cells, because cells contain endogenous reductants such as ascorbic acid and gluthathione. To explore the miscoding properties of formaldehyde-derived DNA adducts a site-specifically modified oligodeoxynucleotide containing a N2-Me-dG was prepared and used as the template in primer extension reactions catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I. The primer extension reaction was slightly stalled one base before the N2-Me-dG lesion, but DNA synthesis past this lesion was readily completed. The fully extended products were analyzed to quantify the miscoding specificities of N2-Me-dG. Preferential incorporation of dCMP, the correct base, opposite the lesion was observed, along with small amounts of misincorporation of dTMP (9.4%). No deletions were detected. Steady-state kinetic studies indicated that the frequency of nucleotide insertion for dTMP was only 1.2 times lower than for dCMP and the frequency of chain extension from the 3′-terminus of a dT:N2-Me-dG pair was only 2.1 times lower than from a dC:N2-Me-dG pair. We conclude that N2-Me-dG is a miscoding lesion capable of generating G→A transition mutations.

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Replication forks formed at bacterial origins often encounter template roadblocks in the form of DNA adducts and frozen protein–DNA complexes, leading to replication-fork stalling and inactivation. Subsequent correction of the corrupting template lesion and origin-independent assembly of a new replisome therefore are required for survival of the bacterium. A number of models for replication-fork restart under these conditions posit that nascent strand regression at the stalled fork generates a Holliday junction that is a substrate for subsequent processing by recombination and repair enzymes. We show here that early replication intermediates containing replication forks stalled in vitro by the accumulation of excess positive supercoils could be cleaved by the Holliday junction resolvases RusA and RuvC. Cleavage by RusA was inhibited by the presence of RuvA and was stimulated by RecG, confirming the presence of Holliday junctions in the replication intermediate and supporting the previous proposal that RecG could catalyze nascent strand regression at stalled replication forks. Furthermore, RecG promoted Holliday junction formation when replication intermediates in which the replisome had been inactivated were negatively supercoiled, suggesting that under intracellular conditions, the action of RecG, or helicases with similar activities, is necessary for the catalysis of nascent strand regression.

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Bacterial and mammalian mismatch repair systems have been implicated in the cellular response to certain types of DNA damage, and genetic defects in this pathway are known to confer resistance to the cytotoxic effects of DNA-methylating agents. Such observations suggest that in addition to their ability to recognize DNA base-pairing errors, members of the MutS family may also respond to genetic lesions produced by DNA damage. We show that the human mismatch recognition activity MutSalpha recognizes several types of DNA lesion including the 1,2-intrastrand d(GpG) crosslink produced by cis-diamminedichloroplatinum(II), as well as base pairs between O6-methylguanine and thymine or cytosine, or between O4-methylthymine and adenine. However, the protein fails to recognize 1,3-intrastrand adduct produced by trans-diamminedichloroplatinum(II) at a d(GpTpG) sequence. These observations imply direct involvement of the mismatch repair system in the cytotoxic effects of DNA-methylating agents and suggest that recognition of 1,2-intrastrand cis-diamminedichloroplatinum(II) adducts by MutSalpha may be involved in the cytotoxic action of this chemotherapeutic agent.

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DNA repair alkyltransferases protect organisms against the cytotoxic, mutagenic, and carcinogenic effects of alkylating agents by transferring alkyl adducts from DNA to an active cysteine on the protein, thereby restoring the native DNA structure. We used random sequence substitutions to gain structure-function information about the human O6-methylguanine-DNA methyltransferase (EC 2.1.1.63), as well as to create active mutants. Twelve codons surrounding but not including the active cysteine were replaced by a random nucleotide sequence, and the resulting random library was selected for the ability to provide alkyltransferase-deficient Escherichia coli with resistance to the methylating agent N-methyl-N'-nitro-N-nitrosoguanidine. Few amino acid changes were tolerated in this evolutionarily conserved region of the protein. One mutation, a valine to phenylalanine change at codon 139 (V139F), was found in 70% of the selected mutants; in fact, this mutant was selected much more frequently than the wild type. V139F provided alkyltransferase-deficient bacteria with greater protection than the wild-type protein against both the cytotoxic and mutagenic effects of N-methyl-N'-nitro-N-nitrosoguanidine, increasing the D37 over 4-fold and reducing the mutagenesis rate 2.7-5.5-fold. This mutant human alkyltransferase, or others similarly created and selected, could be used to protect bone marrow cells from the cytotoxic side effects of alkylation-based chemotherapeutic regimens.

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beta-2-Microglobulin (beta-2m) is a major constituent of amyloid fibrils in patients with dialysis-related amyloidosis (DRA). Recently, we found that the pigmented and fluorescent adducts formed nonenzymatically between sugar and protein, known as advanced glycation end products (AGEs), were present in beta-2m-containing amyloid fibrils, suggesting the possible involvement of AGE-modified beta-2m in bone and joint destruction in DRA. As an extension of our search for the native structure of AGEs in beta-2m of patients with DRA, the present study focused on pentosidine, a fluorescent cross-linked glycoxidation product. Determination by both HPLC assay and competitive ELISA demonstrated a significant amount of pentosidine in amyloid-fibril beta-2m from long-term hemodialysis patients with DRA, and the acidic isoform of beta-2m in the serum and urine of hemodialysis patients. A further immunohistochemical study revealed the positive immunostaining for pentosidine and immunoreactive AGEs and beta-2m in macrophage-infiltrated amyloid deposits of long-term hemodialysis patients with DRA. These findings implicate a potential link of glycoxidation products in long-lived beta-2m-containing amyloid fibrils to the pathogenesis of DRA.

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Strains of Mycobacterium smegmatis, a mycobacterium which shares genetic sequences, grows more rapidly, and is nonpathogenic in man as compared with Mycobacterium tuberculosis, were utilized for the initial development of new antimycobacterial therapy. Drug-resistant strains of M. smegmatis which are known to arise in a manner identical to the emergence of drug-resistant strains of M. tuberculosis were isolated and utilized as models for the antimycobacterial activities of modified and unmodified oligodeoxynucleotide phosphorothioates in broth cultures. Under normal conditions, oligodeoxynucleotide phosphorothioates do not enter mycobacteria, and several strategies were successfully utilized to afford entry of oligonucleotides into the mycobacterial cells. One involved the presence of very low levels of ethambutol, which enables the entry of oligonucleotides into mycobacteria because of its induced alterations in the cell wall, and another involved the utilization of oligonucleotides covalently attached to a D-cycloserine molecule, whereby entry into the mycobacterial cell is achieved by a receptor-mediated process. Another low molecular weight, covalently attached ligand that enabled the entry and subsequent antimycobacterial activities of oligodeoxynucleotide phosphorothioates in the absence of a cell wall modifying reagent was biotin. Significant sequence-specific growth inhibition of wild-type, as well as of drug-resistant, M. smegmatis was obtained by modified oligonucleotides complementary in sequence to a specific region of the mycobacterium aspartokinase (ask) gene when utilized in combinations with ethambutol (as compared to ethambutol alone) or as D-cycloserine or biotin covalent adducts without the presence of any other cytotoxic or cytostatic agent.

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The nuclear translocation of NF-kappa B follows the degradation of its inhibitor, I kappa B alpha, an event coupled with stimulation-dependent inhibitor phosphorylation. Prevention of the stimulation-dependent phosphorylation of I kappa B alpha, either by treating cells with various reagents or by mutagenesis of certain putative I kappa B alpha phosphorylation sites, abolishes the inducible degradation of I kappa B alpha. Yet, the mechanism coupling the stimulation-induced phosphorylation with the degradation has not been resolved. Recent reports suggest a role for the proteasome in I kappa B alpha degradation, but the mode of substrate recognition and the involvement of ubiquitin conjugation as a targeting signal have not been addressed. We show that of the two forms of I kappa B alpha recovered from stimulated cells in a complex with RelA and p50, only the newly phosphorylated form, pI kappa B alpha, is a substrate for an in vitro reconstituted ubiquitin-proteasome system. Proteolysis requires ATP, ubiquitin, a specific ubiquitin-conjugating enzyme, and other ubiquitin-proteasome components. In vivo, inducible I kappa B alpha degradation requires a functional ubiquitin-activating enzyme and is associated with the appearance of high molecular weight adducts of I kappa B alpha. Ubiquitin-mediated protein degradation may, therefore, constitute an integral step of a signal transduction process.

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Em 1906, Albrecht obteve a primeira enodiona conhecida, ao reagir benzoquinona com ciclopentadieno. A estrutura desta enodiona somente foi elucidada em 1928, por Diels e Alder que, entretanto, perceberam ser possív.el existirem dois diferentes isômeros para o composto em questão: endo e exo. A descoberta, em 1958, da reação de fotocilização deste aduto de Diels-Alder, por Cookson e colaboradores, demonstrou que se tratava do isômero endo e esta reação passou a ser utilizada para se comprovar a configuração endo de vários compostos de estrutura análoga. Porém, apesar de sua importância histórica como método para comprovar a configuração dos adutos de Diels-Alder, os dados disponíveis até hoje são insuficientes para o esclarecimento dos processos subjacentes à fotociclização desses compostos, especialmente porque hoje sabemos que existem adutos de configuração endo que não fotociclizam. Visando aumentar o conhecimento sobre o comportamento destes adutos frente à reação de fotociclização, determinaram-se seus espectros de absorção (na região do UVNisível) e de emissão de luminescência e concluiu-se, com base em nossos resultados e daqueles relatados na literatura, que o fato de não ocorrer a fotociclização de alguns adutos de configuração endo não depende exclusivamente da estabilidade dos estados excitados envolvidos, ainda que essa característica e a natureza destes certamente afete os rendimentos quânticos da reação. Antes, parece-nos que estruturas que permitam deslocalizar um dos elétrons do birradical intermediariamente formado neste processo propiciam a reversão deste intermediário ao reagente, ao invés de se formar o produto de fotociclização. Alem disso, reinvestigamos a reação de fotoisomerização endo → exo do aduto de benzoquinona e ciclopentadieno, por irradiação em etanol/trietil-amina, relatada por Pandey e colaboradores em 1990, tendo verificado que tal isomerização não ocorre nas condições descritas na literatura, obtendo-se, ao invés disso, principalmente o tautômero aromático da enodiona e seu produto de fotociclização. Por outro lado, descobrimos que, deixar em repouso, no escuro, o aduto de benzoquinona e ciclopentadieno em etanol/trietil-amina conduz,a um dímero deste aduto, não descrito previamente.

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The main goal of this project was to develop an efficient methodology allowing rapid access to structurally diverse scaffolds decorated with various functional groups. Initially, we discovered and subsequently developed an experimentally straightforward, high-yielding photoinduced conversion of readily accessible diverse starting materials into polycyclic aldehydes and their (hemi)acetals decorated by various pendants. The two step sequence, involving the Diels-Alder addition of heterocyclic chalcones and other benzoyl ethylenes to a variety of dienes, followed by the Paternò-Büchi reaction, was described as an alkene-carbonyl oxametathesis. This methodology offers a rapid increase in molecular complexity and diversity of the target scaffolds. To develop this novel methodology further and explore its generality, we directed our attention to the Diels-Alder adducts based on various chromones. We discovered that the Diels-Alder adducts of chromones are capable of photoinduced alkene-arene [2+2] cycloaddition producing different dienes, which can either dimerize or be introduced into a double-tandem [4π+2π]·[2π+2π]·[4π+2π]·[2π+2π] synthetic sequence, followed by an acid-catalyzed oxametathesis, leading to a rapid expansion of molecular complexity over a few experimentally simple steps. In view of the fact that oxametathesis previously was primarily observed in aromatic oxetanes, we decided to prepare model aliphatic oxetanes with a conformationally unconstrained or "flexible" methyl group based on the Diels-Alder adducts of cyclohexadiene or cyclopentadiene with methyl vinyl ketone. Upon addition of an acid, the expected oxametathesis occurred with results similar to those observed in the aromatic series proving the generality of this approach. Also we synthesized polycyclic oxetanes resulting from the Diels-Alder adducts of cyclic ketones. This not only gave us access to remarkably strained oxetane systems, but also the mechanism for their protolytic ring opening provided a great deal of insight to how the strain affects the reactivity. Additionally, we discovered that although the model Hetero-Diels-Alder adducts did not undergo [2+2] cycloaddition, both exo- and endo-Sulfa-Diels-Alder products, nonetheless, were photochemically active and various products with defined stereochemistry could be produced upon photolysis. In conclusion, we have developed an approach to the encoding and screening of solution phase libraries based on the photorelease of externally sensitized photolabile tags. The encoding tags can be released into solution only when a binding event occurs between the ligand and the receptor, equipped with an electron transfer sensitizer. The released tags are analyzed in solution revealing the identity of the lead ligand or narrowing the range of potential leads.

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Apesar de diversos estudos in vitro e em populações indicarem um efeito protetor do β-caroteno em sistemas biológicos, estudos epidemiológicos como o \"The Alpha-Tocopherol, Beta-Carotene Cancer Prevention Study\" (ATBC) e o \"The Beta-Carotene and Retinol Efficacy Trial\" (CARET) mostraram um aumento na incidência de câncer pulmonar em indivíduos fumantes suplementados com β-caroteno. Essa ação contraditória tem sido chamada na literatura de \"Paradoxo do β-Caroteno\". Sabe-se que este carotenóide sob altas pressões de oxigênio ou na presença de peróxidos pode sofrer oxidação e levar a formação de compostos como aldeídos, epóxidos, etc, que são capazes de se adicionarem covalentemente ao DNA. Estudos, in vitro e in vivo têm demonstrado a possibilidade de os metabólitos do β-caroteno agirem como agentes pró-carcinogênicos. Estes agentes quando ativados quimicamente podem levar à formação de adutos de DNA. Já se sabe que alguns desses adutos encontramse em níveis aumentados em diversas situações de risco de câncer. Diversos grupos, incluindo o nosso, têm demonstrado a formação de lesões em DNA a partir de aldeídos e epóxidos exógenos ou gerados endogenamente. O presente trabalho mostra que a reação do β-caroteno e dois de seus produtos de oxidação, retinal e β-apo-8\'-carotenal, com 2\'-desoxiguanosina e DNA leva à formação de adutos. Dentre os adutos formados, foi caracterizado o aduto 1,N2eteno-2\'-desoxiguanosina (1 ,N2-εdGuo). Os níveis de outro aduto de DNA, a 8-oxo-7,8-dihidro-2\'-deoxiguanosina (8-oxodGuo), também foram monitoradas para estudo comparativo. A formação dos adutos também foi verificada em fibroblastos normais de pulmão humano (linhagem IMR-90) expostos ao β-caroteno e aos seus produtos de oxidação. Experimentos com ratos suplementados com β-caroteno e expostos à fumaça de cigarro em períodos de 7, 30 e 180 dias, mostraram níveis aumentados de 1,N2-εdGuo nos animais suplementados com o carotenóide comparado ao grupo veículo. Aumento no nível de 8-oxodGuo também foi verificado nos tratamentos de 7 e 180 dias. Um aumento significativo no nível do eteno aduto também foi verificado nos animais suplementados com β-caroteno e expostos à fumaça de cigarro, comparado ao grupo apenas exposto à fumaça após 7 e 180 dias de exposição. Nestes mesmos grupos, o aumento do 8-oxodGuo só foi observado no tratamento por 180 dias. Sabendo que estas lesões são comprovadamente mutagênicas, nossos estudos podem contribuir para o esclarecimento dos mecanismos envolvidos na formação de câncer em fumantes suplementados ou não com β-caroteno.

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Dimeric anthracenyldimethyl-derived Cinchona ammonium salts are used as chiral organocatalysts in 5 mol% for the phase-transfer enantioselective alkylation reaction of 2-alkoxycarbonyl-1-indanones with activated bromides. The corresponding adducts bearing a new all-carbon quaternary center are obtained usually in high yield and with moderate and opposite enantioselectivity (up to 55%) when using ammonium salts derived from quinidine and its pseudoenantiomer quinine as organocatalysts. These catalysts can be almost quantitatively recovered by precipitation in ether and reused.

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Primary amine-guanidines derived from trans-cyclohexane-1,2-diamines are used as organocatalysts for the enantioselective conjugate addition of isobutyraldehyde to arylated and heteroarylated nitroalkenes. The reaction was performed in the presence of imidazole as the additive in aqueous DMF as the solvent at 0 °C. The corresponding Michael adducts bearing a new stereocenter were obtained in high yields and with enantioselectivities of up to 80%. Theoretical calculations are used to justify the observed sense of the stereoinduction.

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Simple and commercially available chiral 1,2-diamines were used as organocatalysts for the enantioselective conjugate addition of aldehydes, including α,α-disubstituted, to maleimides. The reaction was carried out in the presence of hexanedioic acid as an additive in aqueous solvents at room temperature. By employing (1S,2S)- and (1R,2R)-cyclohexane-1,2-diamine as organocatalysts, the corresponding Michael adducts bearing new stereocenters were obtained in high or quantitative yields with enantioselectivities of up to 92%, whereas the use of (1S,2S)-1,2-diphenylethane-1,2-diamine gave a much lower ee. Theoretical calculations were used to justify the observed sense of the stereoinduction.

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AgOTf·phosphoramidite complexes efficiently catalyze the enantioselective Mannich-type reaction between benzophenone-imine glycine methyl ester and N-tosyl aldimines in the absence of a base. The corresponding syn-adducts, which are the direct precursors of α,β-diamino acids, are obtained with moderate to good syn-diastereoselectivities (up to 9:1) and high enantioselectivities (up to 99% ee).

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Enantiomerically pure mono-N-Boc-protected trans-cyclohexa-1,2-diamines are used as organocatalysts for the enantioselective conjugate addition of α,α-disubstituted aldehydes to maleimides. Using a single enantiomer of the organocatalyst, both enantiomeric forms of the resulting Michael adducts bearing a new quaternary stereocenter are obtained in high yields, by only changing the reaction solvent from chloroform (up to 86% ee) to aqueous DMF (up to 84% ee).