Reduced evolutionary rate in reemerged Ebola virus transmission chains.
David J BlackleyMichael R WileyJason T LadnerMosoka P FallahTerrence LoMerle L GilbertChristopher GregoryJonathan D'ambrozioStewart CoulterSuzanne MateZephaniah BalogunJeffrey KugelmanWilliam NwachukwuKarla PrietoAdolphus YeiahFred AmegashieBrian J KearneyMeagan WisniewskiJohn SaindonGary SchrothLawrence FakoliJoseph W DiclaroJ Thomas BeattyLisa E HensleyPeter B JahrlingUte StröherStuart T NicholMoses MassaquoiFrancis KatehPeter ClementAlex GasasiraFatorma BolayStephan S MonroeAndrew RambautMariano Sanchez-LockhartA Scott LaneyTolbert NyenswahAthalia ChristieGustavo F PalaciosPublished in: Science advances (2016)
On 29 June 2015, Liberia's respite from Ebola virus disease (EVD) was interrupted for the second time by a renewed outbreak ("flare-up") of seven confirmed cases. We demonstrate that, similar to the March 2015 flare-up associated with sexual transmission, this new flare-up was a reemergence of a Liberian transmission chain originating from a persistently infected source rather than a reintroduction from a reservoir or a neighboring country with active transmission. Although distinct, Ebola virus (EBOV) genomes from both flare-ups exhibit significantly low genetic divergence, indicating a reduced rate of EBOV evolution during persistent infection. Using this rate of change as a signature, we identified two additional EVD clusters that possibly arose from persistently infected sources. These findings highlight the risk of EVD flare-ups even after an outbreak is declared over.