Studies of the interaction of the 16 residue fusion peptide domain of human immunodeficiency virus glycoprotein gp41 (gp41 FD) with T lymphocytes are outlined. Fluorescence measurements of changes in the electrostatic surface and dipole potentials of the plasma membrane following the interaction with gp41 FD are described. The results show that gp41 FD interacts with heparan sulfate located on the cell surface. This interaction is blocked by interleukin‐8 and abolished by pre‐treating the cells with heparitinase. The specificity of the reaction was also assessed by observations that soluble heparan sulfate competes with the cell membrane interaction whereas soluble heparin (at the levels utilized) does not. Following binding to heparan sulfate, the interaction with the membrane seems to take place in a cooperative manner with the formation of gp41 FD trimers. In simpler phospholipid membranes, however, a trimeric complex does not appear to be the dominant mode of interaction. Finally, by repeating some of these studies within an imaging regime, it appears that the gp41 FD–T‐cell interaction takes place within specific domains on the cell surface to similarly localized heparan sulfate moieties.