Toxoplasma gondii can be responsible for congenital toxoplasmosis leading to mild or severe sequelae, and for life-threatening infections in immunocompromised hosts. A new 5'-nuclease real-time PCR assay that targets the 300-fold repeated AF146527 DNA sequence (TaqMan-AF-PCR) has been developed and its performance for diagnosis of toxoplasmosis and treatment follow-up has been assessed. A retrospective analysis was first performed with 144 clinical specimens previously analysed for the presence of T. gondii DNA by a PCR-ELISA assay that targets the B1 gene of T. gondii (B1-PCR-ELISA). Fifteen samples, all from patients with clinically proven toxoplasmosis, were negative according to B1-PCR-ELISA and positive according to TaqMan-AF-PCR. A prospective analysis was then performed with 203 consecutive clinical specimens received at the laboratory of Parasitology of Saint-Louis Hospital during a 4-month period. The diagnosis of toxoplasmosis in two patients was made according to the TaqMan-AF-PCR whereas the B1-PCR-ELISA failed to make diagnosis. Additionally, iterative samples from a patient with cerebral and disseminated toxoplasmosis, already tested using a B1 real-time PCR assay, were tested using the TaqMan-AF-PCR and a Light Cycler real-time PCR assay targeting the same repetitive AF146527 sequence (LC-AF-PCR). Detection was achieved with the TaqMan-AF-PCR, with a mean gain of 7.1 and 3.3 amplification cycles when compared with the B1 real-time PCR and the LC-AF-PCR, respectively. This study demonstrates the higher sensitivity of the 5'-nuclease real-time PCR assay developed for the AF146527 DNA sequence and confirms the interest of using this highly repeated target to improve the diagnosis of toxoplasmosis.