UNLABELLED: HIV-1 protease (PR) activation is triggered by Gag-Pol dimerization. We previously reported that reverse transcriptase (RT) amino acid substitution mutations resulted in p66/51RT heterodimer instability associated with impaired PR activation, and that treatment with IMPORTANCE: HIV-1 protease (PR) activation for mediating virus particle processing is essential for virus infectivity. As part of our attempt to determine whether Gag-Pol dimerization triggers PR activation, we found that RT point mutations that impair RT heterodimer stability and virus particle processing markedly reduced VLP assembly efficiencies in a p6gag-containing Gag-Pol expression vector (designated Gagp6-Pol). Further, these unstable RT point mutations markedly inhibited the facilitating effect of an RT dimerization enhancer on Gagp6-Pol VLP assembly. Our data support the proposal that RT/RT interaction contributes to PR activation by promoting Gag-Pol/Gag-Pol interaction, thus suggesting that targeting Gag-Pol dimerization may serve as an alternative HIV/AIDS treatment strategy. A Gag-Pol VLP assembly assay might be usable for probing the potential impacts of Gag-Pol dimerization on PR activation.