Retroviral integration: in vitro host site selection by avian integrase.

Viral integrase catalyzes the integration of the linear viral DNA genome into the chromatin of the infected host cell, an essential step in the life cycle of retroviruses. The reaction produces a characteristic small duplication of host sequences at the site of integration, implying that there is a close juxtaposition of the viral DNA ends during a concerted integration event. We have used an in vitro assay to measure the concerted integration of virus-like plasmid DNA into naked lambda DNA catalyzed by virion purified avian integrase. In contrast to in vivo avian integration, which has strong fidelity for a 6-bp duplication, purified avian integrase in the context of this assay produced a distribution of duplication sizes, with the 6-bp size dominating. The metal cofactor Mg2+ induced increased fidelity for the 6-bp duplication relative to that with Mn2+. The immediate sequence of the host site may also influence duplication size in that we found sites that sustained multiple independent integration events producing the same duplication size. Additionally, for each set of cloned integration sites (5, 6, and 7 bp), a unique but similar symmetrical pattern of G/C and A/T sequence biases was found. Using duplex oligonucleotides as target substrates, we tested the significance of the 6-bp G/C and A/T pattern for site selection. In the context of this assay, which is likely dominated by the integration of only one viral end, the 6-bp pattern was not preferred. Instead, integration was predominantly into the 3' ends of the oligonucleotides. The combined results of the lambda and oligonucleotide assays indicated that although host site selection has properties in common with recognition of the viral DNA termini, the nonrandom sequence preferences seen for host site selection were not identical to the sequence requirements for long terminal repeat recognition.