Author: Haley R. Harrington; Matthew H. Zimmer; Laura M. Chamness; Veronica Nash; Wesley D. Penn; Thomas F. Miller; Suchetana Mukhopadhyay; Jonathan P. Schlebach
Title: Cotranslational Folding Stimulates Programmed Ribosomal Frameshifting in the Alphavirus Structural Polyprotein Document date: 2019_10_2
ID: 4ju3x2bf_15
Snippet: Nevertheless, the deletion of the region containing the stimulatory RNA hairpin downstream of the slip-site abrogates PRF (Supplemental Fig. 6 ), which suggests that both the hairpin and TM2 are needed for efficient PRF. Together these findings suggest topological signals within the SINV structural polyprotein generate a mechanical force that stimulates -1PRF......
Document: Nevertheless, the deletion of the region containing the stimulatory RNA hairpin downstream of the slip-site abrogates PRF (Supplemental Fig. 6 ), which suggests that both the hairpin and TM2 are needed for efficient PRF. Together these findings suggest topological signals within the SINV structural polyprotein generate a mechanical force that stimulates -1PRF.
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