We have previously described the use of synthetic combinatorial "convergent" libraries, or "mixotopes" as immunogens or as antigens to represent naturally hypervariable sequences. The success of this approach suggests that such a mixture of closely related peptides could, at least in part, conveniently represent a nonvariable epitope during its multiple interactions with an antibody population. To address this possibility, we have designed from a non-variable immunodominant peptide of the EBV-viral capsid antigen of 18 kD (VCAp18) a series of three mixotopes containing from 65,000 to 16 million combinatorial sequences. The reactivity of VCAp18 and its three derived mixotopes was examined in ELISA towards a collection of 74 human sera from documented EBV-negative or EBV-positive donors, and analyzed in terms of sensitivity and specificity. Following the observation that the two least degenerated mixotopes could improve the sensitivity of detection of some sera of low reactivity for VCAp18, we decided to combine each mixotope with the VCAp18 peptide. In the case of the least degenerated mixotope in combination with VCAp18, sensitivity and specificity for immunoenzymatic EBV-serodiagnosis, were enhanced to 100%. Our results suggest that synthetic "convergent" combinatorial peptide libraries or "mixotopes," designed from nonvariable antigens, could be useful adjuncts to an antigenic single-sequence peptide in immunoenzymatic serodiagnosis.