Bernard A. Connolly scite author profile

Mechanism-based inhibitors of enzymes, which mimic reactive intermediates in the reaction pathway, have been deployed extensively in the analysis of metabolic pathways and as candidate drugs. The inhibition of cytosine-[C5]-specific DNA methyltransferases (C5 MTases) by oligodeoxynucleotides containing 5-azadeoxycytidine (AzadC) and 5-fluorodeoxycytidine (FdC) provides a well-documented example of mechanism-based inhibition of enzymes central to nucleic acid metabolism. Here, we describe the interaction between the C5 MTase from Haemophilus haemolyticus (M.Hha I) and an oligodeoxynucleotide duplex containing 2-H pyrimidinone, an analogue often referred to as zebularine and known to give rise to high-affinity complexes with MTases. X-ray crystallography has demonstrated the formation of a covalent bond between M.Hha I and the 2-H pyrimidinone-containing oligodeoxynucleotide. This observation enables a comparison between the mechanisms of action of 2-H pyrimidinone with other mechanism-based inhibitors such as FdC. This novel complex provides a molecular explanation for the mechanism of action of the anti-cancer drug zebularine.

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Structural basis for uracil recognition by archaeal family B DNA polymerases

Fogg

2002

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Deamination of cytosine to uracil in a G-C base pair is a major promutagenic event, generating G-C-->A-T mutations if not repaired before DNA replication. Archaeal family B DNA polymerases are uniquely able to recognize unrepaired uracil in a template strand and stall polymerization upstream of the lesion, thereby preventing the irreversible fixation of an A-T mutation. We have now identified a 'pocket' in the N-terminal domains of archaeal DNA polymerases that is positioned to interact with the template strand and provide this ability. The structure of this pocket provides interacting groups that discriminate uracil from the four normal DNA bases (including thymine). These groups are conserved in archaeal polymerases but absent from homologous viral polymerases that are unable to recognize uracil. Using site-directed mutagenesis, we have confirmed the biological role of this pocket and have engineered specific mutations in the Pfu polymerase that confer the ability to read through template-strand uracils and carry out PCR with dUTP in place of dTTP.

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Mechanism and cleavage specificity of the H-N-H endonuclease colicin E9 1 1Edited by J. Karn

Pommer

Cal

Keeble

et al. 2001

Journal of Molecular Biology

136

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A read-ahead function in archaeal DNA polymerases detects promutagenic template-strand uracil

Greagg

Fogg²,

Panayotou³

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

118

119

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Deamination of cytosine to uracil is the most common promutagenic change in DNA, and it is greatly increased at the elevated growth temperatures of hyperthermophilic archaea. If not repaired to cytosine prior to replication, uracil in a template strand directs incorporation of adenine, generating a G⅐C 3 A⅐U transition mutation in half the progeny. Surprisingly, genomic analysis of archaea has so far failed to reveal any homologues of either of the known families of uracil-DNA glycosylases responsible for initiating the base-excision repair of uracil in DNA, which is otherwise universal. Here we show that DNA polymerases from several hyperthermophilic archaea (including Vent and Pfu) specifically recognize the presence of uracil in a template strand and stall DNA synthesis before mutagenic misincorporation of adenine. A specific template-checking function in a DNA polymerase has not been observed previously, and it may represent the first step in a pathway for the repair of cytosine deamination in archaea.

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Synthesis, Manipulation and Conductivity of Supramolecular Polymer Nanowires

Dong

Hollis

Fishwick

et al. 2007

Chemistry A European J

116

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The synthesis of supramolecular conducting nanowires can be achieved by using DNA and pyrrole. Oxidation of pyrrole in DNA-containing solutions yields a material that contains both the cationic polypyrrole (PPy) and the anionic DNA polymers. Intimate interaction of the two polymer chains in the self-assembled nanowires is indicated by FTIR spectroscopy. AFM imaging shows individual nanowires to be continuous, approximately 5 nm high and conformationally flexible. This feature allows them to be aligned by molecular combing in a similar manner to bare DNA and provides a convenient method for fabricating a simple electrical device by stretching DNA/PPy strands across an electrode gap. Current-voltage measurements confirm that the nanowires are conducting, with values typical for a polypyrrole-based material. In contrast to polymerisation of pyrrole on a DNA template in bulk solution, attempts to form similar wires by polymerisation at surface-immobilised DNA do not give a continuous coverage; instead, a beads-on-a-string appearance is observed suggesting that immobilisation inhibits the assembly process.

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Site-directed Mutagenesis of the Catalytic Residues of Bovine Pancreatic Deoxyribonuclease I

Jones

Worrall

Connolly

1996

Journal of Molecular Biology

103

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Synthesis and characterization of an octanucleotide containing the EcoRI recognition sequence with a phosphorothioate group at the cleavage site

Connolly¹,

Potter²,

Eckstein³

et al. 1984

Biochemistry

170

103

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The synthesis and characterization of an octanucleotide, d(GGsAATTCC), containing the recognition sequence of the EcoRI restriction endonuclease with a phosphorothioate internucleotidic linkage at the cleavage site are described. Two approaches for the synthesis of the RP and SP diastereomers of this octamer by the phosphite method are presented. The first consists of the addition of sulfur instead of H2O to the phosphite at the appropriate position during chain elongation. This method results in a mixture of diastereomers that can be separated by high-performance liquid chromatography after 5'-terminal phosphorylation. The second uses the presynthesized and diastereomerically pure dinucleoside phosphorothioate d[Gp(S)A] for the addition to the growing oligonucleotide chain as a block. The products are characterized by digestion with nuclease P1, fast atom bombardment mass spectrometry, 31P NMR spectroscopy, and conversion to d(GGAATTCC) by desulfurization with iodine. Only the RP diastereomers of d(GGsAATTCC) and its 5'-phosphorylated derivative are cleaved by EcoRI endonuclease. The rate of hydrolysis is slower than that of the unmodified octamer. The phosphorothioate octamer will be useful for the determination of the stereochemical course of the EcoRI-catalyzed reaction.

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Synthesis and configurational analysis of a dinucleoside phosphate isotopically chiral at phosphorus. Stereochemical course of Penicillium citrinum nuclease P1 reaction

Potter¹,

Connolly²,

Eckstein³

1983

Biochemistry

172

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(Rp)- and (Sp)-5'-O-thymidyl 3'-O-thymidyl [18O]phosphates have been synthesized by reaction of the respective (Sp)- and (Rp)-phosphorothioate precursors with N-bromosuccinimide in dioxane and H218O. Stereochemical analysis of the product derived from the (Rp)-phosphorothioate by digestion with snake venom phosphodiesterase in H217O and examination of the isotopic chirality of the resulting thymidine 5'-[16O,17O,18O]phosphate demonstrate that the replacement reaction has proceeded with inversion of configuration at phosphorus. Inspection of the 31P NMR spectrum of the methyl esters prepared from (Sp)-5'-O-thymidyl 3'-O-thymidyl [18O]phosphate confirms that the replacement reaction has proceeded with very little if any racemization. This spectrum also allows the assignment of the absolute configuration of these methyl triesters. (Rp)-5'-O-Thymidyl 3'-O-thymidyl [18O]phosphate has been used to demonstrate that the stereochemical course of the hydrolytic reaction catalyzed by nuclease P1 from Penicillium citrum proceeds with inversion of configuration at phosphorus and therefore probably does not involve the participation of a covalent enzyme intermediate.

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