Truncated Yet Functional Viral Protein Produced Via RNA Polymerase Slippage Implies Underestimated Coding Capacity of RNA Viruses

Overview

Journal Sci Rep

Specialty Science

Date 2016 Feb 23

PMID 26898356

Citations 29

Authors

Yuka Hagiwara-Komoda

Sun Hee Choi

Masanao Sato

Go Atsumi

Junya Abe

Junya Fukuda

Mie N Honjo

Atsushi J Nagano

Keisuke Komoda

Kenji S Nakahara

Ichiro Uyeda

Satoshi Naito

Affiliations

Soon will be listed here.

Abstract

RNA viruses use various strategies to condense their genetic information into small genomes. Potyviruses not only use the polyprotein strategy, but also embed an open reading frame, pipo, in the P3 cistron in the -1 reading frame. PIPO is expressed as a fusion protein with the N-terminal half of P3 (P3N-PIPO) via transcriptional slippage of viral RNA-dependent RNA polymerase (RdRp). We herein show that clover yellow vein virus (ClYVV) produces a previously unidentified factor, P3N-ALT, in the +1 reading frame via transcriptional slippage at a conserved G(1-2)A(6-7) motif, as is the case for P3N-PIPO. The translation of P3N-ALT terminates soon, and it is considered to be a C-terminal truncated form of P3. In planta experiments indicate that P3N-ALT functions in cell-to-cell movement along with P3N-PIPO. Hence, all three reading frames are used to produce functional proteins. Deep sequencing of ClYVV RNA from infected plants endorses the slippage by viral RdRp. Our findings unveil a virus strategy that optimizes the coding capacity.

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