2 resultados para DNA Breaks, Double-Stranded

em Bucknell University Digital Commons - Pensilvania - USA


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Over the past 7 years, the enediyne anticancer antibiotics have been widely studied due to their DNA cleaving ability. The focus of these antibiotics, represented by kedarcidin chromophore, neocarzinostatin chromophore, calicheamicin, esperamicin A, and dynemicin A, is on the enediyne moiety contained within each of these antibiotics. In its inactive form, the moiety is benign to its environment. Upon suitable activation, the system undergoes a Bergman cycloaromatization proceeding through a 1,4-dehydrobenzene diradical intermediate. It is this diradical intermediate that is thought to cleave double-stranded dna through hydrogen atom abstraction. Semiempirical, semiempiricalci, Hartree–Fock ab initio, and mp2 electron correlation methods have been used to investigate the inactive hex-3-ene-1,5-diyne reactant, the 1,4-dehydrobenzene diradical, and a transition state structure of the Bergman reaction. Geometries calculated with different basis sets and by semiempirical methods have been used for single-point calculations using electron correlation methods. These results are compared with the best experimental and theoretical results reported in the literature. Implications of these results for computational studies of the enediyne anticancer antibiotics are discussed.

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To elucidate the individual roles of the four Broad-Complex (BR-C) isoforms, Z1-Z4, on neuronal composition in the mushroom body, I undertook a series of overexpression experiments and created tools for knockdown experiments. Specifically, I imaged and analyzed Drosophila brains from earlier experiments in which BR-C isoforms Z1 and Z3 were individually overexpressed in the MB. The knockdown experiments required the creation of the molecular tools necessary for isoform-specific RNA interference (RNAi). For these I performed PCR to amplify DNA sequences unique to each isoform and inserted those into the pWIZ vector, which will permit expression of loopless hairpin double stranded RNA to trigger the RNAi pathway in the fly.