D. Li scite author profile

The geographical distribution of hepatitis B virus (HBV) subgenotypes and their clinical implications in patients with acute and chronic hepatitis B in the Heilung-kiang province of northeast China were investigated. Nested PCR and multiplex PCR were performed with genotype-specific primers and with subgenotype-specific primers to identify genotypes and subgenotypes from serum samples of 412 HBV infections including 69 with acute self-limited hepatitis (ASH) and 343 with chronic hepatitis (CH). A total of 361 samples were genotyped and 304 were further subgenotyped. The most common HBV genotype was C (93.63%, 338/361), with subgenotype group C2 (83.73%, 283/338) predominating. Genotype B was also found and subgenotype B2 predominated within this genotype. Out of 69 infected patients with ASH, 48 were identified as genotype C and all belonged to subgenotype C2. Of 343 infected patients with CH, 313 were genotyped and 256 were subgenotyped; amongst these, C2 (91.80%, 235/256), B2 (7.42%, 19/256) and mixed subgenotypes B2 and C2 (0.78%, 2/256) were found. In HBV subgenotype C2 infections, ASH had a higher ratio of women than CH patients. These results show that HBV subgenotypes C2 and B2 were found in Heilung-kiang province of northeast China. In ASH and CH groups, the distributions of subgenotypes were coincident with C2, the predominant subgenotype. Analysis of the association between subgenotype and the outcomes of HBV infection was inconclusive in our study.

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Application of allele-specific RNAi in hepatitis B virus lamivudine resistance

Teng

Liu

et al. 2011

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Understanding the consequences of mutation in the tyrosine-methionine-aspartate-aspartate (YMDD) motif of hepatitis B virus (HBV) genome on replication is critical for treating chronic hepatitis B with lamivudine. Allele-specific gene silencing by RNAi (allele-specific RNAi: ASP-RNAi) is an advanced application of RNAi techniques. Use of this strategy as a means for specifically inhibiting an allele expression of interest suggested that it can specifically suppress the expression of alleles causing disease without inhibiting the expression of corresponding wild-type alleles. However, no studies have used ASP-RNAi to address the issue of HBV lamivudine resistance. In this study, we applied ASP-RNAi into two long-term eukaryotic cell lines of full-length HBV containing either lamivudine-resistant mutants (HBV-YIDD) or wild type (HBV-WT) which we generated in previously. The designed siRNAs were also used in this eukaryotic expression system together with lamivudine. ELISA and real-time PCR were performed to monitor virus-specific protein synthesis and viral DNA replication. The results showed that the base substitutions conferring marked ASP-RNAi appeared to be largely present in positions 1, 3, 6, 11, 12, 15 and 19 of the sense strand of siRNAs which were different from the most sensitive positions of this application in eukaryotes. In addition, siRNA-lamivudine combinations did not possess the prominent anti-HBV activity we expected because of some unknown mechanisms. These findings recapitulated many of the features of ASP-RNAi in hepadnaviruses which provided a new insight into the development of a potent strategy against HBV drug resistance.

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D. Li

Sox2 targets cyclinE, p27 and survivin to regulate androgen‐independent human prostate cancer cell proliferation and apoptosis

Hepatitis B virus subgenotype C2 is the most prevalent subgenotype in northeast China

Application of allele-specific RNAi in hepatitis B virus lamivudine resistance

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