The human immunodeficiency virus type 1 (HIV-1) Tat protein strongly transactivates gene expression from the viral long terminal repeat (LTR) and is required for virus efficient replication. Previous studies have shown that cells scrape-loaded in the presence of purified recombinant Tat can absorb the protein in a receptor-independent fashion. Using recombinant Tat in which cysteine residues were blocked by sulfitolysis to prevent disulfide aggregation (S-Tat) we were unable to observe this phenomenon, possibly because of improper protein folding. In this study we report that the block to cellular uptake could be overcome by mixing S-Tat with a cationic liposome, Lipofectin. When mixed with Lipofectin, S-Tat effected a specific, concentration-dependent transactivation of HIV-1 LTR-directed reporter gene activity in Hela Cells. Cellular uptake was confirmed by Western blot analysis with an anti-Tat antibody. The method described utilizes cells plated in a 96-well format, requires only nanogram quantities of S-Tat protein and is much less labor-intensive than assays involving scrape-loading, making it suitable for use as a high-throughput screen for detecting Tat inhibitors. The method may have applications for the analysis of other recombinant proteins that require uptake into intact cells for determination of functionality and presents a general technique for introducing exogenous proteins into cells.