Detection of Nucleic Acid Lesions During Photochemical Inactivation of RNA Viruses by Treatment with Methylene Blue and Light Using Real‐time PCR

Abstract

The mechanism of bacteriophage photoinactivation by methylene blue and light (MB+L) involves genomic RNA damage. In this study, two RNA viruses, Sindbis virus (SINV) and hepatitis C virus were treated by MB+L and their nucleic acids were amplified to show that RNA lesions occurred during inactivation. During MB+L inactivation, the viral load of both viruses was significantly reduced as MB+L exposure increased. The nucleic acid amplification of treated viral RNA was inhibited in a time-dependent manner and the percentage inhibition of amplification reached about 99% after 30 min of treatment. Furthermore, as compared to SINV viral infectivity detected by quantification of the 50% tissue culture infective dose (TCID(50)), the inhibition of SINV RNA amplification strongly correlated with a decrease in in vitro infectivity (R(2) > 0.94), suggesting that RNA serves as the main target during MB+L inactivation.