The topography and functional implications of the complex formed in vitro between human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) and its primer tRNALys3 were studied in this work. On the basis of previous results showing the high affinity both of the native primer, tRNALys3, as well as that of mismatched short oligonucleotide primers for HIV-1 RT, we synthesized chimeric primers containing tRNALys3 linked to U and T residues of different lengths. We found that the affinity of the oligonucleotide primers for HIV-1 RT is dramatically increased when linked to primer tRNA. Our results also show that in the tRNA.RT complex, before annealing tRNALys3 to the retroviral RNA genome, the 3'-terminal nucleotide of tRNALys3 is positioned at a distance of one nucleotide unit away from the template in the active polymerization site of the enzyme.