In part 1 of the thesis quantitative proteomics was used to determine changes in abundance and phosphorylation status of host proteins during infection with the human pathogen chikungunya virus ... Show moreIn part 1 of the thesis quantitative proteomics was used to determine changes in abundance and phosphorylation status of host proteins during infection with the human pathogen chikungunya virus (CHIKV). Several proteins were identified that may be specifically downregulated during CHIKV infection to create a suitable environment for viral replication. eEF2 was identified as a factor that becomes strongly phosphorylated during infection with several viruses which may be a mechanism to stall translation in response to viral infection. In part 2 of the thesis the discovery of a novel and unusual -2/-1 programmed ribosomal frameshifting (PRF) mechanism is described that is used during translation of the nonstructural open reading frame of the economically important porcine reproductive and respiratory syndrome virus (PRRSV). This mechanism relies on a slippery site and stimulatory RNA signal in the PRRSV genome and is stimulated by the viral protein nsp1beta and host poly (C) binding proteins 1 and 2. Frameshifting results in the synthesis of two previously unidentified proteins, nsp2 TF (-2 PRF) and nsp2N (-1 PRF). Virus mutants that can no longer make the frameshift products are attenuated and may be used for vaccine development. Show less
Treffers, E.E.; Tas, A.; Scholte, F.E.M.; M.N. van; Heemskerk, M.T.; Ru, A.H. de; ... ; Veelen, P.A. van 2015
