Novel synthetic methods enabling the construction of biologically active compounds

Witherington, Jason

January 1994

No description available.

547

Carbocyclic nucleosides

Synthetic approaches to novel adenosine analogues and the synthesis of potential antiviral agents

Thorpe, Andrew John

January 1993

No description available.

547

Carbocyclic nucleosides

The synthesis of novel analogues of adenosine

Varley, David Robert

January 1996

No description available.

547

Carbocyclic nucleosides; Mosher's method

Carbocyclic C-nucleosides derived from formycin

He, Mingzhu. Schneller, Stewart W.,

January 2008

Thesis (Ph. D.)--Auburn University. / Abstract. Vita. Includes bibliographical references (p. 110-125).

Příprava fluorovaných karbocyklických derivátů nukleosidů jako potenciálních inhibitorů virové replikace / Preparation of fluorinated carbocyclic derivatives of nucleosides as potential viral replication inhibitors

Štefek, Milan

January 2019

This master thesis is dedicated to the preparation of fluorinated derivatives of carbocyclic nucleosides, that may serve as flaviviral replication inhibitors. Preparation of both monofluorinated as well as gem-difluorinated analogs of ribo and 2'-deoxyribonucleoside was attempted. While a suitable and reliable route for the preparation of monofluorinated compounds way found, synthesis of gem-difluorinated turned out to be rather challenging. Although most of the presented work dealt with compounds bearing adenine as a nucleobase, the universal applicability of the developed procedures, demonstrated on the preparation of a guanosine-type molecule, suggests that after slight optimization larger series of this type of compounds could be prepared.

Biotransformační aspekty nových karbocyklických analogů nukleosidů. / Biotransformation aspects on novel carbocyclic nucleoside analogs.

Rozumová, Nela

January 2012

Carbocyclic nucleoside analogs with norbornane moiety that have been synthesized at IOCB AS CR, represent new potential chemotherapeutic agents with significant activity against Coxsackieviruses. The main objective of this work was to study the metabolism and mechanism of action of the original analog carbocyclic nucleoside MS 254, which is characterized by its antiviral and cytostatic effects. The attention was partially paid also to the two structurally related substances (MS 255, MS 320). In this work, we determined cytotoxicity of these compounds in cell culture and the effect of MS 254 on the amount of total and oxidized glutathione, activity of glutathione-S-transferase (GST), glutathione reductase (GR) and the effect on cellular oxidative stress. The kinetics of the conjugation of MS 254 by human GST was also studied. It was found that of the three substances tested MS 255 was the most cytotoxic and MS 254 was the least cytotoxic compound. It was further found that MS 254 does not cause significant oxidative stress and that it increases the activity of GST and GR in a dose-dependent manner. Michaelis-Menten constant of the conjugation of MS 254 with the glutathione (main metabolic pathway) was determined in the milimolar range, indicating a relatively low affinity of MS 254 for GST.