The RNA-dependent RNA polymerases of different members of the family Flaviviridae exhibit similar properties in vitro.
TLDR
The virus-encoded RNA-dependent RNA polymerase (RdRp), which is required for replication of the positive-strand RNA genome, is a key enzyme of members of the virus family Flaviviridae and is demonstrated to exhibit a common reactivity profile in vitro, typical of nucleic acid-polymerizing enzymes.Abstract:
The virus-encoded RNA-dependent RNA polymerase (RdRp), which is required for replication of the positive-strand RNA genome, is a key enzyme of members of the virus family Flaviviridae. By using heterologously expressed proteins, we demonstrate that the 77 kDa NS5B protein of two pestiviruses, bovine viral diarrhoea virus and classical swine fever virus, and the 100 kDa NS5 protein of the West Nile flavivirus possess RdRp activity in vitro. As originally shown for the RdRp of hepatitis C virus, RNA synthesis catalysed by the pestivirus and flavivirus enzymes is strictly primer- dependent in vitro. Accordingly, initiation of RNA polymerization on homopolymeric RNAs and heteropolymeric templates, the latter with a blocked 3′-hydroxyl group, was found to be dependent on the presence of complementary oligonucleotide primer molecules. On unblocked heteropolymeric templates, including authentic viral RNAs, the RdRps were shown to initiate RNA synthesis via intramolecular priming at the 3′-hydroxyl group of the template and ‘copy-back’ transcription, thus yielding RNase- resistant hairpin molecules. Taken together, the RdRps of different members of the Flaviviridae were demonstrated to exhibit a common reactivity profile in vitro, typical of nucleic acid- polymerizing enzymes.read more
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Flaviviridae :T he Viruses and Their Replication
TL;DR: The present research attacked the Flavivirus infection through two mechanisms: Membrane Reorganization and the Compartmentalization and Assembly and Release of Particles from Flaviv virus-infected Cells and Host Resistance to Flaviviral Infection.
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Crystal Structure of the Dengue Virus RNA-Dependent RNA Polymerase Catalytic Domain at 1.85-Angstrom Resolution
Thai Leong Yap,T. Xu,Yen Liang Chen,Hélène Malet,Marie-Pierre Egloff,Bruno Canard,Subhash G. Vasudevan,Julien Lescar,Julien Lescar +8 more
TL;DR: The structure of the NS5 nuclear localization sequences, previously thought to fold into a separate domain, form an integral part of the polymerase subdomains and reveals the presence of two zinc ion binding motifs, which should inform and accelerate the structure-based design of antiviral compounds against dengue virus.
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The Molecular Biology of West Nile Virus: A New Invader of the Western Hemisphere
TL;DR: A large body of data on the molecular biology of WNV and other flaviviruses has already been obtained, and aspects of virion structure, the viral replication cycle, viral protein function, genome structure, conserved viral elements, host factors, virus-host interactions, and vaccines are discussed in this review.
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The global ecology and epidemiology of West Nile virus.
TL;DR: Since its initial isolation in Uganda in 1937 through the present, West Nile virus has become an important cause of human and animal disease worldwide and the known geographic range of WNV transmission and disease has continued to increase over the past 77 years.
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Essential Role of Cyclization Sequences in Flavivirus RNA Replication
TL;DR: The results show that the base-pairing between 5′ and 3′ complementary sequences, rather than the nucleotide sequence per se, is essential for the replication of mosquito-borne Kunjin virus RNA and that more than one pair of cyclization sequences might be involved in the replicate of the tick-borne Flavivirusspecies.
References
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Classification and Nomenclature of Viruses
TL;DR: The results of the meetings of the International Committee on Taxonomy of Viruses, held in Madrid, September 1975, are briefly reported: rules of viral nomenclature, composition of the new Executive Committee, and a list of the names so far officially agreed.
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Identification and properties of the RNA-dependent RNA polymerase of hepatitis C virus.
TL;DR: Experimental evidence that an RNA‐dependent RNA polymerase is encoded by HCV and that this enzymatic activity is the function of the 65 kDa non‐structural protein 5B (NS5B) is presented, representing a first important step towards a better understanding of the life cycle of the HCV.
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Hepatitis C virus shares amino acid sequence similarity with pestiviruses and flaviviruses as well as members of two plant virus supergroups
TL;DR: It is reported here that HCV shares an even greater degree of protein sequence similarity with members of the pestivirus group (i.e., bovine viral diarrhea virus and hog cholera virus), which are thought to be distantly related to the flaviviruses.
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Biochemical properties of hepatitis C virus NS5B RNA-dependent RNA polymerase and identification of amino acid sequence motifs essential for enzymatic activity.
TL;DR: The NS5B protein of the hepatitis C virus is an RNA-dependent RNA polymerase (RdRp) that is assumed to be required for replication of the viral genome and four amino acid sequence motifs crucial for RdRp activity were identified by using a mutational analysis.
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NS3 is a serine protease required for processing of hepatitis C virus polyprotein.
TL;DR: It is shown that the amino-terminal region of the HCV polyprotein is processed in vitro by cellular proteases releasing three structural proteins: p21 (core), gp37 (E1), and gp61 (E2), and implicate NS3 as a serine protease and demonstrate that a catalytically active NS3 is necessary for cleavage of the nonstructural region of HCV.