Publications by authors named "Pujari Suresh"

Synthetic modification of oligodeoxynucleotides (ODNs) via conjugation to nucleic acid binding small molecules can improve hybridization and pharmacokinetic properties. In the present study, five Hoechst 33258 derived benzimidazoles were conjugated to T rich ODNs and their hybridization effectiveness was tested. Thermal denaturation studies revealed significant stabilization of complementary duplexes by ODN-benzimidazole conjugates, with the extent of stabilization being highly dependent on the length of the linker between DNA and benzimidazole.

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Ten eleven translocation (TET) dioxygenases 1-3 are non-heme Fe(II) and α-ketoglutarate dependent enzymes that catalyze oxidation of 5-methylcytosine (5mC) in DNA to hydroxymethyl-C, formyl-C, and carboxy-C. This typically leads to gene activation and epigenetic remodeling. Most known inhibitors of TET are α-ketoglutarate mimics that may interfere with other α-ketoglutarate dependent enzymes.

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DNA-peptide (DpCs) and DNA-protein cross-links (DPCs) are DNA lesions formed when polypeptides and nuclear proteins become covalently trapped on DNA strands. DNA-protein cross-links are of enormous size and hence pose challenges to cell survival by blocking DNA replication, transcription, and repair. However, DPCs can undergo proteolytic degradation via various pathways to give shorter polypeptide chains (DpCs).

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Metabolic activation of the human carcinogen 1,3-butadiene (BD) by cytochrome 450 monooxygenases gives rise to a genotoxic diepoxide, 1,2,3,4-diepoxybutane (DEB). This reactive electrophile alkylates guanine bases in DNA to produce N7-(2-hydroxy-3,4-epoxy-1-yl)-dG (N7-DE-dG) adducts. Because of the positive charge at the N7 position of the purine heterocycle, N7-DEB-dG adducts are inherently unstable and can undergo spontaneous depurination or base-catalyzed imidazole ring opening to give N -[2-deoxy-D-erythro-pentofuranosyl]-2,6-diamino-3,4-dihydro-4-oxo-5-N-1-(oxiran-2-yl)propan-1-ol-formamidopyrimidine (DEB-FAPy-dG) adducts.

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Article Synopsis
  • DNA-protein cross-links (DPCs) form between an epigenetic mark in DNA (5-formylC) and lysine residues on histone proteins, which may affect processes like replication and transcription but are difficult to study due to their reversible nature.* -
  • The researchers created stable DPCs using a method called oxime ligation, enabling the specific attachment of histones to the 5fdC mark in DNA under normal conditions.* -
  • Experiments showed that these histone-DNA crosslinks hindered DNA synthesis by a specific polymerase (hPol η), but this obstacle could be overcome after proteolytic processing.*
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Humans are exposed to large numbers of electrophiles from their diet, the environment, and endogenous physiological processes. Adducts formed at the N-terminal valine of hemoglobin are often used as biomarkers of human exposure to electrophilic compounds. We previously reported the formation of hemoglobin N-terminal valine adducts (added mass, 106.

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DNA-protein cross-links (DPCs) are unusually bulky DNA lesions that form when cellular proteins become trapped on DNA following exposure to ultraviolet light, free radicals, aldehydes, and transition metals. DPCs can also form endogenously when naturally occurring epigenetic marks [5-formyl cytosine (5fC)] in DNA react with lysine and arginine residues of histones to form Schiff base conjugates. Our previous studies revealed that DPCs inhibit DNA replication and transcription but can undergo proteolytic cleavage to produce smaller DNA-peptide conjugates.

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Humans are exposed to a wide range of electrophilic compounds present in our diet and environment or formed endogenously as part of normal physiological processes. These electrophiles can modify nucleophilic sites of proteins and DNA to form covalent adducts. Recently, powerful untargeted adductomic approaches have been developed for systematic screening of these adducts in human blood.

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1,3-Butadiene (BD) is an environmental and occupational toxicant classified as a human carcinogen. BD is metabolically activated by cytochrome P450 monooxygenases to 3,4-epoxy-1-butene (EB), which alkylates DNA to form a range of nucleobase adducts. Among these, the most abundant are the hydrolytically labile N7-guanine adducts such as N7-(2-hydroxy-3-buten-1-yl)-guanine (N7-EB-dG).

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DNA-protein cross-links (DPCs) are super-bulky DNA adducts induced by common chemotherapeutic agents, reactive oxygen species, and aldehydes, and also formed endogenously as part of epigenetic regulation. Despite their presence in most cells and tissues, the biological effects of DPCs are poorly understood due to the difficulty of constructing site-specific DNA-protein conjugates. In the present work, a new approach of conjugating proteins to DNA using oxime ligation was used to generate model DPCs structurally analogous to lesions formed in cells.

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DNA nucleobases are the prime targets for chemical modifications by endogenous and exogenous electrophiles. Alkylation of the N7 position of guanine and adenine in DNA triggers base-catalyzed imidazole ring opening and the formation of N-substituted formamidopyrimidine (N-R-FAPy) lesions. Me-FAPy-dG adducts induced by exposure to methylating agents and AFB-FAPy-dG lesions formed by aflatoxin B have been shown to persist in cells and to contribute to toxicity and mutagenicity.

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High density functionalization of DNA with ethynyl and octadiynyl side chains followed by CuAAC "click labeling" with 9-azidomethylanthracene was performed. Alkynyl DNA was also cross-linked with fluorogenic 9,10-bis-azidomethylanthracene employing the "bis-click" reaction. By this means the fluorescence of the anthracene moiety was imparted to the virtually nonfluorescent DNA.

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Duplex DNA with terminal and internal sugar cross-links were synthesized by the CuAAC reaction from oligonucleotides containing 2'-O-propargyl-2-aminoadenosine as a clickable site and a bifunctional azide (4). Stepwise click chemistry was employed to introduce cross-links at internal and terminal positions. Copper turnings were used as catalyst, reducing the copper load of the reaction mixture and avoiding complexing agents.

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Internal sugar cross-links were introduced for the first time into oligonucleotides with parallel chain orientation by click ligation. For this, the 2'- or 3'-position of the isoguanosine ribose moiety was functionalized with clickable propargyl residues, and the synthesis of propargylated cytosine building blocks was significantly improved. Phosphoramidites were prepared and employed in solid-phase synthesis.

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2'-O or 3'-O-propargylated adenosines and ribothymidines were used as click targets for cross-linking of oligonucleotides with aliphatic and aromatic azides. The cross-link generates a sugar modification at the 2'-O-ligation site. Inexpensive ribonucleosides were used as starting materials.

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7-Deazapurine and 8-aza-7-deazapurine nucleosides related to dA and dG bearing 7-octadiynyl or 7-tripropargylamine side chains as well as corresponding oligonucleotides were synthesized. "Click" conjugation with 1-azidomethyl pyrene (10) resulted in fluorescent derivatives. Octadiynyl conjugates show only monomer fluorescence, while the proximal alignment of pyrene residues in the tripropargylamine derivatives causes excimer emission.

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Template-free cross-linking of single-stranded DNA bearing octadiynyl side chains at the 7-position of 8-aza-7-deazapurine moieties with bisfunctional azides is reported employing a Cu(I)-catalyzed azide-alkyne "bis-click" reaction. Bis-adducts were formed when the bis-azide:oligonucleotide ratio was 1:1; monofunctionalization occurred when the ratio was 15:1. Four-stranded DNA consisting of two cross-linked duplexes was obtained after hydridization.

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The internal dye labeling of DNA by the Huisgen-Meldal-Sharpless "click" reaction is described. Fluorogenic 9-azidomethyl anthracene 2 and 3-azido-7-hydroxycoumarin 3 were employed in the postsynthetic functionalization of oligonucleotides incorporating octa-(1,7)-diynyl-8-aza-7-deaza-2'-deoxyadenosine 1. Nucleoside 1 was prepared by Sonogashira cross coupling from the corresponding 7-iodo compound, converted into the corresponding phosphoramidite, and oligonucleotides were synthesized.

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Objective: Anatomic repair is being actively evaluated as the preferred option for congenitally corrected transposition of the great arteries. We present our 13-year experience with this approach.

Methods: Between May 1994 and September 2007, 68 patients with congenitally corrected transposition of the great arteries underwent anatomic repair.

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The condensation reaction involving an aldehyde and diketone was efficiently promoted by the Ionic liquid, [Hbim]BF(4) (IL) as a reaction medium with methanol as co-solvent at ambient temperature under ultrasonic irradiation to afford the corresponding 1,8-dioxo-octahydro-xanthene (xanthene) derivatives in excellent yields. The advantages of this method include among others the use of a recyclable, non-volatile ionic liquid, which promotes this protocol under ambient temperature without the requirement of any added catalyst. The reaction times and yields are compared with p-TSA catalyzed synthesis of xanthenes under thermal conditions, which is also reported for the first time under our reaction conditions.

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