Genetic tests to reveal TAT homodimer formation and select TAT homodimer inhibitor.

The HIV Tat protein is essential for productive infection and is a potent activator of viral gene expression. By constructing a genetic fusion between the amino-terminal DNA-binding domain of the lambda repressor (as a reporter for dimerization) and Tat, we show that Tat forms dimers in vivo. By deletion analysis and site-directed mutagenesis, we show that (i) the peptide encoded by exon-1 of Tat is sufficient to promote dimerization and (ii) cys37 is essential for homo-dimerization of Tat protein. Furthermore, by using a new E. coli strain in which the expression of beta-galactosidase is under the negative control of the cl::Tat repressor, we select a protein (CD10/Nep) expressed by human Jurkat T-cells which inhibits Tat dimerization.