Recognition of an RNA loop by another RNA loop is involved in several biological functions. The dimerization of two copies of the HIV-1 genomic RNA is thought to be involved in several steps of the retroviral life cycle. It has been shown that the dimerization of the two HIV-1 RNA genomes is initiated by the so-called ?kissing loop?. The 9nt kissing loop consists of a palindromic 6nt sequence that forms Watson-Crick base-pairs at the kissing site in HIV-1. We report the results of our molecular modeling and dynamics studies on two major subtype isolates (MAL and LAI) of HIV-1 kissing loop structures. From our modeling studies, we conclude that the conformation of the loop in the monomer might be closer to the ?A-RNA-like? conformation in order to form an initial kissing structure. This is achieved by the stacking interactions of the bases at the 3´ end of the loop and by the intramolecular tertiary interactions of a single linker nucleotide. We discuss the effect of the loop size and the structural limitations on the formation of kissing loop structures. Also, we propose a possible mechanism to convert the kissing loop structure to a stable extended duplex structure without unwinding the stems.

Key words: HIV-1 Kissing loop structures, molecular modeling and dynamics, RNA dimerization, HIV-1 MAL and LAI isolates.