Replication and encapsidation of HBV mutants with the truncated C gene.
- Author:
Ju-qiang HAN
1
;
Da-rong HU
;
Jin-hua XIONG
;
Xue-ling HU
;
Gong-ren FAN
;
Juan LI
;
Chao-ying LIU
;
Yi-pin DI
;
Yi-pin WU
Author Information
- Publication Type:Journal Article
- MeSH: Cell Line, Tumor; Hepatitis B Core Antigens; genetics; Hepatitis B virus; genetics; physiology; Humans; Mutation; Plasmids; genetics; Transfection; Virus Replication
- From: Chinese Journal of Experimental and Clinical Virology 2004;18(1):39-42
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo evaluate the replication and encapsidation of HBV mutants with the truncated C gene.
METHODSThe HBV mutants with the truncated C gene were constructed by molecular cloning and PCR-based deletion in vitro. The replication and encapsidation of HBV mutants were investigated by Southern blotting, PCR and real-time fluorescence PCR respectively after transfecting the HBV mutants plasmid into HepG2 cells by using liposome.
RESULTSThe C-truncated HBV mutant vectors were constructed successfully and confirmed exactly by clone sequencing and enzymes digestion. The C-truncated HBV mutants were replication defective, however, all types of HBV DNA could be detected positive in the cytoplasm and supernatant after co-transfecting the C-truncated HBV mutants plasmid and the helper constructs into HepG2 cells. The C-truncated HBV mutants were proved to produce 3-40 folds more progeny DNA than that of the wild-type HBV by DNA quantitative assay.
CONCLUSIONThe C-truncated HBV mutants are replication-deficient and could not replicate and encapsulate in the hepatocytes when transfected solely, however, the progeny HBV-variant viruses are encapsidated more effectively to secrete into supernatant when co-transfected with the helper construct which lacks part of 5 prime-proximal HBV RNA packaging signal Epsilon.
