HIV-1 integrase (IN) mediates the insertion of viral cDNA into the cell genome, a vital process for replication. This step is catalyzed by two separate DNA reaction events, termed 3'-processing and strand transfer. Here, we show that six inhibitors from five structurally different classes of compounds display a selectivity shift towards preferential strand transfer inhibition over the 3'-processing activity of IN when a single serine is substituted at position C130. Even though IN utilizes the same active site for both reactions, this finding suggests a distinct conformational dissimilarity in the mechanistic details of each IN catalytic event.