Nucleic acid binding properties of the nucleic acid chaperone domain of hepatitis delta antigen

doi:10.1093/nar/gkg857

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Nucleic Acids Research, 2003, Vol. 31, No. 22 6481-6492
© 2003 Oxford University Press

Article

Nucleic acid binding properties of the nucleic acid chaperone domain of hepatitis delta antigen

Chun-Chung Wang, Tsung-Cheng Chang, Ching-Wen Lin, Hsiu-Ling Tsui, Page B. C. Chu, Bo-Shun Chen, Zhi-Shun Huang and Huey-Nan Wu^*

Institute of Molecular Biology, Academia Sinica, Taipei 11529, Taiwan, Republic of China

*To whom correspondence should be addressed. Tel: +886 2 27899233; Fax: +886 2 27826085; Email: hnwu{at}gate.sinica.edu.tw

The N terminal region of hepatitis delta antigen (HDAg), referredto here as NdAg, has a nucleic acid chaperone activity thatmodulates the ribozyme activity of hepatitis delta virus (HDV)RNA and stimulates hammerhead ribozyme catalysis. We characterizedthe nucleic acid binding properties of NdAg, identified thestructural and sequence domains important for nucleic acid binding,and studied the correlation between the nucleic acid bindingability and the nucleic acid chaperone activity. NdAg does notrecognize the catalytic core of HDV ribozyme specifically. Instead,NdAg interacts with a variety of nucleic acids and has higheraffinities to longer nucleic acids. The studies with RNA homopolymersreveal that the binding site size of NdAg is around nine nucleotideslong. The extreme N terminal portion of NdAg, the followingcoiled-coil domain and the basic amino acid clusters in theseregions are important for nucleic acid binding. The nucleicacid–NdAg complex is stabilized largely by electrostaticinteractions. The formation of RNA–protein complex appearsto be a prerequisite for facilitating hammerhead ribozyme catalysisof NdAg and its derivatives. Mutations that reduce the RNA bindingactivity or high ionic strength that destabilizes the RNA–proteincomplex, reduce the nucleic acid chaperone activity of NdAg.

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