A Sequence-Independent, Unstructured Internal Ribosome Entry Site Is Responsible for Internal Expression of the Coat Protein of Turnip Crinkle Virus. [PDF]
May J, Johnson P, Saleem H, Simon AE.
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Genome-wide transcriptomic analysis reveals correlation between higher WRKY61 expression and reduced symptom severity in Turnip crinkle virus infected Arabidopsis thaliana. [PDF]
Gao R, Liu P, Yong Y, Wong SM.
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A local, interactive network of 3' RNA elements supports translation and replication of Turnip crinkle virus. [PDF]
Yuan X, Shi K, Simon AE.
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In VitroCharacterization of Late Steps of RNA Recombination in Turnip Crinkle Virus
Nagy, Peter D., Simon, Anne E.
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The prospects of targeting messenger RNA surveillance factor PELOTA for developing virus resistance in plants. [PDF]
Majumdar A +8 more
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Evolution of a helper virus-derived, ribosome binding translational enhancer in an untranslated satellite RNA of Turnip crinkle virus. [PDF]
Guo R +3 more
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Spatial scale break in ecological strategies for host use by plant viruses. [PDF]
McLeish M +5 more
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Temperature-dependent survival of Turnip crinkle virus-infected arabidopsis plants relies on an RNA silencing-based defense that requires dcl2, AGO2, and HEN1. [PDF]
Zhang X, Zhang X, Singh J, Li D, Qu F.
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Rethinking viral evolution: How BIAS mechanisms and Gamma-Poisson overdispersion redefine lethal mutagenesis. [PDF]
Wang D, Zhang X, Chang Q.
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The 3' proximal translational enhancer of Turnip crinkle virus binds to 60S ribosomal subunits. [PDF]
Stupina VA +6 more
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