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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Výpočetní studium TiO2-katalyzované syntézy acyclonucleosidů z formamidu: Implikace pro teorii vzniku života / Computational Study of the TiO2-Catalyzed Synthesis of Acyclonucleosides from Formamide: Implications for the Origin of Life

Mládek, Arnošt January 2015 (has links)
The TiO2-catalyzed synthesis of nucleosides in non-aqueous formamide environ- ment via so-called acyclonucleoside intermediates represents an alternative way for the emergence of nucleic acids monomeric units, which could address the the fundamental problem associated with the formation of a --glycosidic bond between a nucleobase and a sugar moiety. In this computational contribution we present a plausible reaction route for the prebiotic TiO2-catalyzed synthesis of purine C2- and C3-acyclonucleosides in formamide, which does not require photocatalytic or radical chain mechanisms. The maximum computed activation energy along the proposed reaction channel is ≥ 32 kcal·mol≠1 , which is clearly feasible under the experimental conditions of the Saladino synthesis. We show that the rate determining step of the entire reaction path is the deprotonation of the formaldehyde hydrate methylene carbon occurring likely on defective binding sites of an anatase surface. Our calculations thus support the view of Saladino et al. about the catalytic role of the TiO2 surface in the one-pot synthesis of purine acyclonucleosides in heat formamide solution.
2

Synthèse métallo-catalysée de phosphonates trans-but-2'-ényl de nucléosides sous forme prodrogue / Metallo-catalized synthesis of trans-but-2'-enyl phosphonates nucleosides under prodrug form

Bessières, Maxime 14 December 2016 (has links)
Actuellement, les nucléosides représentent une classe majeure de composés dans les différentes thérapies anti-virales. Leur développement au cours des 50 dernières années a contribué à la mise sur le marché d'une quarantaine de composés, notamment dans la lutte des hépatites, des herpès et du VIH. Les infections virales représentent cependant toujours un large problème de santé publique, de par l'apparition de résistances aux médicaments existants ainsi que de nouvelles espèces virales. Il est donc nécessaire de développer de nouveaux antiviraux plus actifs et plus sûrs. Dans ce manuscrit, il est décrit la synthèse métallo-catalysée d'acyclonucléosides phosphonate innovants, modifiés sur la partie phosphonate, nucléobase et sur la chaîne acyclique. Pour ce faire, nous nous sommes appuyés sur des réactions de métathèses croisées et la synthèse convergente d'un large panel de nucléobases et phosphonates modifiés. Une importance toute particulière a été donnée à l'utilisation de nouvelles techniques d'activation comme le micro-onde ou les ultrasons. Ces divers procédés de synthèse ont permis la synthèse de trois séries d'alkényl phosphononucléosides, qui se sont révélés d'une activité antivirale remarquable sur certains virus à herpès, comme le VZV ou le CMV. / Nucleosides represents a major class of compounds in different antiviral chemotherapies. Their development from now 50 years has led to the emergence of nearly 40 compounds, to contain many epidemics and in the fight against viral infections as HIV, hepatitis or herpes. Viral infections still represent a tremendous problem in public health with the emergence of resistance to known drugs and the appearance of new viruses. In this context, it's essential to develop new antivirals with higher activity and safer. This manuscript describes organo-metallic syntheses of new modified acyclonucleoside phosphonates, on the nucleobase, the phosphonate or the acyclic spacer. Thus, the use of cross-metathesis and convergent syntheses of a broad panel of nucleic bases and modified phosphonates represents a cornerstone of our work. A particular importance was given to the use of new activations way, as ultrasound or microwave irradiation. Those processes allowed us to synthetize three new families of acyclic phosphononucleosides, which revealed a remarkable antiviral activity against some herpes viruses, as VZV or CMV.

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