In low-G+C Gram-positive bacteria, the regulatory protein CcpA has been shown to play a major part in the so-called carbon catabolite repression (CCR) process, as well as in the induction of basic metabolic genes, for which it is considered a global regulator. A strain of Lactobacillus casei that carried a complete deletion of ccpA has been constructed and used to test the effect of CCR on N-acetylglucosaminidase activity and growth performance of a collection of seven CcpA mutations obtained by site-directed mutagenesis. The replaced amino acids were located in the DNA- and cofactor (P-Ser-HPr)-binding domains. Mutations in the DNA-binding domain lacked CCR, as found in Bacillus megaterium. However, mutations in the cofactor-binding domain of L. casei CcpA had a different phenotype to that observed in the previous studies with B. megaterium. Two of them, S80L and T307I, displayed a significant hyper-repression, an effect never reported before for CcpA. Comparison of growth capabilities provided by the different mutants and their ability to sustain CCR demonstrated that CCR, at least on the enzymic activity tested, and the growth defect caused by the CcpA mutations are unrelated features.