OBJECTIVETo analyze genetic mutation associated with drug resistance in the reverse transcriptase (RT) domain of HBV from 40 patients with chronic hepatitis B, and to construct mutant RT gene recombinant vectors for drug-resistant phenotypic analysis.

METHODSHBV DNA was extracted from sera of the 40 patients receiving anti-HBV nucleot (5) ide analogue. The complete RT domain-encoding gene was amplified by nested PCR, and then cloned into pGEM-T-easy vector. Three to Five clones were randomly selected for DNA sequencing. Data were analyzed by UNASTAR software. The pTriEx-HBV (C) 1.1 expression vectors were constructed by replacing the 1250-hp Xho I/Nco I fragments containing complete RT domain from individual patients samples.

RESULTSAll samples were detected with drug-resistant mutations associated with lamivudine, adefovir, and entacavir singly or in combination. Ninety-six mutant RT genes were cloned into pGEM-T-easy vector, from which 40 major mutant RT genes were replaced into pTriEx-HBV (C) 1.1 expression vectors. The construction was confinned to be successful by verifying mutation existence using DNA sequencing, and detectable HBsAg and HBeAg in the cell supernatant after transfecting recombinant expression vectors into Huh7 cells.

CONCLUSIONThe analysis of drug-resistant mutation and the construction of mutant-recombinant expression vectors were successfully implemented using the samples frum clinical patients. The work lays a foundation for drug-resistant phenotypic analysis of HBV mutants.