Analysis of hepatitis B virus drug-resistant mutant haplotypes by ultra-deep pyrosequencing

S. Y. Ko, H. B. Oh, C. W. Park, H. C. Lee, J. E. Lee

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    19 Citations (Scopus)


    Direct sequencing and reverse hybridization are currently the main methods for detecting drug-resistance mutations of hepatitis B virus (HBV). However, these methods do not enable haplotype analysis so they cannot be used to determine whether the mutations are co-located on the same viral genome. This limits the accurate identification of viral mutants that are resistant to drugs with a high genetic barrier. In our current study, ultra-deep pyrosequencing (UDPS) was used to detect HBV drug-resistance mutations in 25 entecavir-treated and five treatment-naive patients. Of the 25 entecavir-treated patients, 18 had experienced virological breakthrough and two exhibited reduced susceptibility to entecavir. The results obtained by UDPS were compared with those of direct sequencing, and the haplotypes of the drug-resistant HBV mutants were analysed. The average number of reads per patient covering the region in which drug-resistance mutations are located was 1735 (range 451-4526). UDPS detected additional drug-resistance mutations not detected by direct sequencing in 19 patients (mutation frequency range 1.1-23.8%). Entecavir-resistance mutations were found to be co-located on the same viral genome in all 20 patients displaying virological breakthrough or reduced susceptibility to entecavir. In conclusion, UDPS was not only sensitive and accurate in identifying drug-resistance mutations of HBV but also enabled haplotype analysis of the mutants. This method may offer significant advantages in explaining and predicting the responses of patients with HBV to antiviral therapy.

    Original languageEnglish
    Pages (from-to)E404-E411
    JournalClinical Microbiology and Infection
    Issue number10
    Publication statusPublished - 2012 Oct

    Bibliographical note

    Funding Information:
    This research was supported by the Pioneer Research Centre Programme through the National Research Foundation of Korea funded by the Ministry of Education, Science and Technology (2012-0001090).


    • Drug-resistance mutation
    • Haplotype analysis
    • Hepatitis B virus
    • Ultra-deep pyrosequencing

    ASJC Scopus subject areas

    • Microbiology (medical)
    • Infectious Diseases


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