Author: De Clercq, Erik
Title: New Nucleoside Analogues for the Treatment of Hemorrhagic Fever Virus Infections Cord-id: rmxin1da Document date: 2019_8_7
ID: rmxin1da
Snippet: Eight different compounds, all nucleoside analogues, could presently be considered as potential drug candidates for the treatment of Ebola virus (EBOV) and/or other hemorrhagic fever virus (HFV) infections. They can be considered as either (i) adenine analogues (3â€deazaneplanocin A, galidesivir, GSâ€6620 and remdesivir) or (ii) guanine analogues containing the carboxamide entity (ribavirin, EICAR, pyrazofurin and favipiravir). All eight owe their mechanism of action to hydrogen bonded base pa
Document: Eight different compounds, all nucleoside analogues, could presently be considered as potential drug candidates for the treatment of Ebola virus (EBOV) and/or other hemorrhagic fever virus (HFV) infections. They can be considered as either (i) adenine analogues (3â€deazaneplanocin A, galidesivir, GSâ€6620 and remdesivir) or (ii) guanine analogues containing the carboxamide entity (ribavirin, EICAR, pyrazofurin and favipiravir). All eight owe their mechanism of action to hydrogen bonded base pairing with either (i) uracil or (ii) cytosine. Four out of the eight compounds (galidesivir, GSâ€6620, remdesivir and pyrazofurin) are Câ€nucleosides, and two of them (GSâ€6620, remdesivir) also contain a phosphoramidate part. The Câ€nucleoside and phosphoramidate (and for the adenine analogues the 1′â€cyano group as well) may be considered as essential attributes for their antiviral activity.
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