The HIV-1 Integrase Monomer Induces a Specific Interaction with LTR DNA for Concerted Integration

The assembly mechanism for the human immunodeficiency virus type 1 (HIV) synaptic complex (SC) capable of concerted integration is unknown. Molecular and structural studies have established that the HIV SC and prototype foamy virus (PFV) intasome contain a tetramer of integrase (IN) that catalyzes concerted integration. HIV IN purified in the presence of 1 mM EDTA and 10 mM MgSO(4) was predominately a monomer. IN efficiently promoted concerted integration of micromolar concentrations of 3'-OH recessed and blunt-ended U5 long terminal repeat (LTR) oligonucleotide (ODN) substrates (19-42 bp) into circular target DNA. Varying HIV IN to U5 DNA showed that an IN dimer:DNA end molar ratio of 1 was optimal for concerted integration. Integration activities decreased with an increasing length of the ODN, starting from the recessed 18/20 or 19/21 bp set to the 31/33 and 40/42 bp set. Under these conditions, the average fidelity for the HIV 5 bp host site duplication with recessed and blunt-ended substrates was 56%. Modifications of U5 LTR sequences beyond 21 bp from the terminus on longer DNA (1.6 kb) did not alter the 32 bp DNaseI protective footprint, suggesting viral sequences beyond 21 bp were not essential for IN binding. The results suggest IN binds differentially to an 18/20 bp than to a 40/42 bp ODN substrate for concerted integration. The HIV IN monomer may be a suitable candidate for attempting crystallization of an IN DNA complex in the absence or presence of strand transfer inhibitors.