DNA condensation by the nucleocapsid protein of HIV‐1: a mechanism ensuring DNA protection

The nucleocapsid (NC) protein NCp7 of the immunodeficiency virus type 1 is a small basic protein with two zinc finger motifs. NCp7 has key roles in virus replication and structure, which rely on its interactions with nucleic acids. Although most interactions involve RNAs, binding to the viral DNA is...

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Bibliographic Details
Published in:Nucleic acids research 2003-09, Vol.31 (18), p.5425-5432
Main Authors: Krishnamoorthy, G., Roques, Bernard, Darlix, Jean‐Luc, Mély, Yves
Format: Article
Language:English
Subjects:
Anisotropy
Benzoxazoles - chemistry
Capsid Proteins - chemistry
Capsid Proteins - metabolism
DNA - chemistry
DNA - metabolism
gag Gene Products, Human Immunodeficiency Virus
Gene Products, gag - chemistry
Gene Products, gag - metabolism
Genome, Viral
Protein Binding
Quinolinium Compounds - chemistry
RNA, Viral - genetics
RNA, Viral - metabolism
Spectrometry, Fluorescence
Time Factors
Viral Proteins
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Summary:The nucleocapsid (NC) protein NCp7 of the immunodeficiency virus type 1 is a small basic protein with two zinc finger motifs. NCp7 has key roles in virus replication and structure, which rely on its interactions with nucleic acids. Although most interactions involve RNAs, binding to the viral DNA is thought to be of importance to achieve protection of the DNA against cellular nucleases and its integration into the host genome. We investigated the interaction of NCp7 with plasmid DNA as a model system. The fluorescence probe YOYO‐1 was used as the reporter. Binding of NCp7 to DNA caused DNA condensation, as inferred from the dramatic decrease in YOYO‐1 fluorescence. Efficient condensation of DNA required the full length NCp7 with the zinc fingers. The fingerless peptide was less efficient in condensing DNA. Binding of both these NC peptides led to freezing of the segmental dynamics of DNA as revealed by anisotropy decay kinetics of YOYO‐1. The truncated peptide NC(12–55) which retains the zinc fingers did not lead to DNA condensation despite its ability to bind and partially freeze the segmental motion of DNA. We propose that the histone‐like property of NCp7 leading to DNA condensation contributes to viral DNA stability, in vivo.
ISSN:0305-1048
1362-4962
1362-4962
DOI:10.1093/nar/gkg738