A cellular protein specifically binds to the 3'-terminal sequences of hepatitis C virus intermediate negative-strand RNA.
- Author:
Wei WANG
1
;
Qingli DENG
;
Kaihong HUANG
;
Zhaohui DUAN
;
Jing SHAO
;
Zhiqing HUANG
;
Zhiming HUANG
Author Information
- Publication Type:Journal Article
- MeSH: Binding Sites; Hepacivirus; genetics; Nucleic Acid Conformation; RNA, Viral; chemistry; metabolism; RNA-Binding Proteins; analysis; metabolism; Virus Replication
- From: Chinese Medical Journal 2003;116(6):932-936
- CountryChina
- Language:English
-
Abstract:
OBJECTIVETo study the mechanism of the cellular proteins involved in the process of replication of hepatitis C virus (HCV) negative-strand RNA.
METHODSUltraviolet (UV) cross-linking was used to identify the cellular proteins that would bind to the 3'-end of HCV negative-strand RNA. Competition experiment was used to confirm the specificity of this binding, in which excess nonhomologous protein and RNA transcripts were used as competitors. The required binding sequence was determined by mapping, then the binding site was predicted through secondary structure analysis.
RESULTSA cellular protein of 45 kD (p45) was found to bind specifically to the 3'-end of HCV negative-strand RNA by UV cross-linking. Nonhomologous proteins and RNA transcripts could not compete out this binding, whereas the unlabeled 3'-end of HCV negative-strand RNA could. Mapping of the protein-binding site suggested that the 3'-end 131-278nt of HCV negative-strand RNA was the possible protein-binding region. Analysis of RNA secondary structure presumed that the potential binding site was located at 194-GAAAGAAC-201.
CONCLUSIONThe cellular protein p45 could specifically bind to the secondary structure of the 3'-end of HCV intermediate negative-strand RNA, and may play an important role in HCV RNA replication.
