Torahiko Tanaka scite author profile

Gene products of hepatitis C virus (HCV), a possible major causative agent of posttransfusion non-A, non-B hepatitis, are considered to be produced from a precursor polyprotein via proteolytic processing mediated by either host cell or viral proteinases. The presence of HCV serine proteinase has been proposed from analyses of amino acid sequence homology. To examine the processing mechanism of the HCV precursor polyprotein, the amino-terminal region of the putative nonstructural protein region of the HCV genome, containing the serine proteinase motif, was expressed and analyzed by using an in vitro transcription/translation system and a transient expression system in cultured cells. Two distinct proteinase activities which function in the production of a 70-kDa protein (p70) from the precursor polyprotein were detected. One of these proteinase activities, which cleaved the carboxyl (C)-terminal side of p70, required the presence of the serine proteinase motif, which is located in the amino (N)-terminal region of p70. That suggested that the predicted HCV serine proteinase was functional. The other activity, which was responsible for the cleavage of the N-terminal side of p70, required the expression of the region upstream and downstream of that cleavage site, including the p70 serine proteinase domain. From the results of pulse-chase analysis, using proteinase inhibitors coupled with a point mutation analysis, the latter activity was proposed to be a novel zinc-dependent metalloproteinase.

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Persistent infection of hepatitis E virus transmitted by blood transfusion in a patient with T‐cell lymphoma

Tamura

Shimizu²,

Tanaka

et al. 2007

Hepatology Research

189

148

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Characterization of antiviral activity of lactoferrin against hepatitis C virus infection in human cultured cells

Ikeda

Nozaki²,

Sugiyama³

et al. 2000

Virus Research

135

114

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Structure of the 3' terminus of the hepatitis C virus genome

Tanaka¹,

Kato²,

Cho³

et al. 1996

J Virol

268

105

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Hepatitis C virus (HCV), a positive-strand RNA virus, has been considered to have a poly(U) stretch at the 3 terminus of the genome. We previously found a novel 98-nucleotide sequence downstream from the poly(U) stretch on the HCV genome by primer extension analysis of the 5 end of the antigenomic-strand RNA in infected liver (T. Tanaka, N. Kato, M.-J. Cho, and K. Shimotohno, Biochem. Biophys. Res. Commun. 215: 744-749, 1995). Here, we show that the novel sequence is a highly conserved 3 tail of the HCV genome. We repeated primer extension analyses with four HCV-infected liver samples and found the 98-nucleotide sequence in all the samples. Furthermore, experiments in which RNA oligonucleotide was ligated to the 3 end of the HCV genome existing in infectious serum revealed nearly identical 3 termini with no extra sequence downstream from the 98-nucleotide sequence, suggesting that this sequence is the tail of the HCV genome. This tail sequence was highly conserved among individuals and even between the two most genetically distant HCV types, II/1b and III/2a. Computer modeling predicted that the tail sequence can form a conserved stem-andloop structure. These results suggest that the novel 3 tail is a common structure of the HCV genome that plays an important role in initiation of genomic replication.

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Torahiko Tanaka

A Novel Sequence Found at the 3′-Terminus of Hepatitis C Virus Genome

Two distinct proteinase activities required for the processing of a putative nonstructural precursor protein of hepatitis C virus

Persistent infection of hepatitis E virus transmitted by blood transfusion in a patient with T‐cell lymphoma

Characterization of antiviral activity of lactoferrin against hepatitis C virus infection in human cultured cells

Structure of the 3' terminus of the hepatitis C virus genome

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