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.