Abstract Mayaro virus (MAYV) is an emerging alphavirus in the family Togaviridae that causes a self-limited febrile illness accompanied by maculopapular rash and arthralgia. MAYV is reported throughout South America and the Caribbean and has potential to cause widespread outbreaks. There is no FDA-approved vaccine for MAYV. The overall objectives of this study were to inactivate MAYV utilizing various inactivation approaches, and to identify a highly safe vaccine candidate with optimum immunogenicity. MAYV was inactivated by three different mechanisms: formalin; 1, 5 iodonaphthyl azide (INA); and γ-radiation. Formalin inactivation (F-iMAYV) was performed with 0.05 or 0.1% formalin at 35°C. INA-inactivation (INA-iMAYV) was performed with 10, 50, or 100 μM INA combined with UV exposure. Lastly, MAYV was inactivated with 10, 20, or 30 kGy of γ-radiation in the presence of a protein-protecting manganese-decapeptide-phosphate complex (MDP-iMAYV). MAYV was inactivated by all the three approaches. Dose- and incubation time-dependent effects were observed with formalin inactivation. 0.1% formalin with an incubation time of 48h inactivated MAYV; however, further evaluation is ongoing. MAYV was completely inactivated with >50 μM dose of INA and by all three doses of γ-radiation. Differential protection of MAYV epitopes was observed after inactivation with three agents and with different doses of the inactivating agent. The most consistent antigen (Ag)-antibody (Ab) binding was observed in INA-iMAYV, followed by MDP-iMAYV. Ag-Ab binding was almost completely lost in F-iMAYV. The data suggests that INA and MDP-inactivated MAYV can be further studied as vaccine candidates. Studies are planned to evaluate immunogenicity in-vivo.