ABSTRACT: The twin-arginine translocation (TAT) system secretes fully folded proteins that contain a twin-arginine motif within their signal sequence across the cytoplasmic membrane in bacteria. Using a green fluorescent protein fused with a TAT signal sequence, we demonstrated that Mycobacterium smegmatis contains a TAT system. By inactivating individual genes, we showed that three genes (tatA, tatB, and tatC) are required for a functional TAT system in M. smegmatis. The tat mutants exhibited a decreased growth rate and altered colony morphology compared to the parent strain. Comparison of the secreted proteins of the deltatatC and parent strain by two-dimensional polyacrylamide gel electrophoresis revealed an alteration in the secretion of at least five proteins, and one of the major TAT-dependent secreted proteins was identified as beta-lactamase (BlaS). The genome of M. smegmatis was analyzed with the TATFIND program, and 49 putative TAT substrates were identified, including the succinate transporter DctP. Because disruption of the TAT secretion system has a direct effect on the physiology of M. smegmatis and homologs of the TAT proteins are also present in the genome of Mycobacterium tuberculosis, the TAT secretion system or its substrates may be good candidates for drug or vaccine development.