Single DNA molecule stretching measures the activity of chemicals that target the HIV-1 nucleocapsid protein

We develop a biophysical method for investigating chemical compounds that target the nucleic acid chaperone activity of HIV-1 nucleocapsid protein (NCp7). We used an optical tweezers instrument to stretch single ?,-DNA molecules through the helix-coil transition in the presence of NCp7 and various chemical compounds. The change in the helix-coil transition width induced by wild-type NCp7 and its zinc fingi.r variants correlates with in vitro nucleic acid chaperone activity measurements and in vivo assays. The compound-NC interaction measured here reduces NCpTs capability to alter the transition width. Purified compounds from the NO Diversity set, 119889, 119911, and 119913 reduce the chaperone activity of 5 nM NC in aqueous solution at 10, 25, and 100 nM concentrations respectively. Similarly,, gallein reduced the activity of 4 nM NC at 100 nM concentration. Further analysis allows us to dissect the impact of each compound on both sequence-specific and non-sequence-specific DNA binding of NC, two of the main components of NC's nucleic acid chaperone activity. These results suggest that DNA stretching experiments can be used to screen chemical compounds targeting NC proteins and to further explore the mechanisms by which these compounds interact with NC and alter its nucleic acid chaperone activity. (c) 2006 Elsevier Inc. All rights reserved.