Enzymatic capability of HIS-tagged HIV-1 integrase using oligonucleotide disintegration substrates

Disintegration, wherein a half-site integration substrate is resolved into separate viral and host DNA components via DNA strand transfer, is one of three well-established in vitro activities of HIV-1 integrase. The role of disintegration in the HIV-1 replicative cycle, however, remains a mystery. In this report, we describe the expression inEscherichia coli and purification of HIV-1 integrase as a fusion protein containing a 6×His tag at its amino terminus. Integrase resolved dumbbell and Y-substrates optimally at pH 6.8–7.2 in the presence of 2 mM MnCl₂. Substrate requirements for intramolecular disintegration included a 10 base pair viral U5 LTR arm and a CA dinucleotide located at the 3 end of the LTR. Disintegration was not sensitive to changes in the host DNA portion of the substrate. A dumbbell substrate with a 5 oligo-dA tail also underwent disintegration. The released LTR arm with an oligo-dA tail was utilized as a template primer by several DNA polymerases indicating that disintegration occurred via nucleophilic attack on the phosphodiester bond located immediately adjacent to the CA dinucleotide at the 3 end of the LTR. Coupled disintegration-DNA polymerase reactions provided a highly efficient and sensitive means of detecting disintegration activity. Integrase also catalyzed an apparently concerted disintegration-5-end joining reaction in which an LTR arm was transferred from one dumbbell substrate molecule to another.