Architecture of Viral RNA Helicases; HCV Helicase as Antiviral Target
Date
2018-03-01Author
KANEEZ, FATIMASHILU, MATHEW
MOHD, SUHAIL
ESAM, AZHAR
GHAZI, DAMANHOURI
ISHTIAQ, QADRI
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Around 80% of known viruses comprise of RNA and its specific RNA helicases that are vital for most RNA metabolism
includingpre-mRNA splicing, translation,initiation, and ribosome biogenesis. The viral helicases are crucial for theviral
genome to replicate in thehostas well as emerge as antiviral targets. With these vital properties, viral helicases have
recently arisen as novel targets for the curing viral infections. DExH box protein (DECH variant) in HCV NS3 resembles
SF2 family helicases which remarkably show high sequence similarity to Vaccinia virus nucleoside triphosphate
phosphohydrolase II (NPH-II) as well as Plum pox virus (PPV) RNA helicase (DECH variant) cylindrical inclusion is a
DExH box that consists of the Potyviridae polyprotein domain (PP). In this review, we highlight the importance of such
motifs in theunderstanding of viral helicases with implications in inhibition properties. Strategies are discussed to identify
novel inhibitors that would block these motifs, leading into probably new kind of antiviral compounds. Due to
alimitation in treatment options including 1) interferon resistance and 2) the presence of high rate of resistance in antiprotease
inhibitor classes, the helicase and anti-helicase targets for alternate attractions.
DOI/handle
http://hdl.handle.net/10576/6438Collections
- Biomedical Research Center Research [740 items ]