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1. Opium Poppy Mosaic Virus Has an Xrn-Resistant, Translated Subgenomic RNA and a BTE 3′ CITE

   https://doi.org/10.1128/JVI.02109-20  

   Ilyas, Muhammad ; Du, Zhiyou ; Simon, Anne E. ( April 2021 , Journal of Virology)

   Dutch, Rebecca Ellis. (Ed.)

   ABSTRACT Opium poppy mosaic virus (OPMV) is a recently discovered umbravirus in the family Tombusviridae . OPMV has a plus-sense genomic RNA (gRNA) of 4,241 nucleotides (nt) from which replication protein p35 and p35 extension product p98, the RNA-dependent RNA polymerase (RdRp), are expressed. Movement proteins p27 (long distance) and p28 (cell to cell) are expressed from a 1,440-nt subgenomic RNA (sgRNA2). A highly conserved structure was identified just upstream from the sgRNA2 transcription start site in all umbraviruses, which includes a carmovirus consensus sequence, denoting generation by an RdRp-mediated mechanism. OPMV also has a second sgRNA of 1,554 nt (sgRNA1) that starts just downstream of a canonical exoribonuclease-resistant sequence (xrRNA D ). sgRNA1 codes for a 30-kDa protein in vitro that is in frame with p28 and cannot be synthesized in other umbraviruses. Eliminating sgRNA1 or truncating the p30 open reading frame (ORF) without affecting p28 substantially reduced accumulation of OPMV gRNA, suggesting a functional role for the protein. The 652-nt 3′ untranslated region of OPMV contains two 3′ cap-independent translation enhancers (3′ CITEs), a T-shaped structure (TSS) near its 3′ end, and a Barley yellow dwarf virus -like translation element (BTE) in the central region. Only the BTE is functional in luciferase reporter constructs containing gRNA or sgRNA2 5′ sequences in vivo , which differs from how umbravirus 3′ CITEs were used in a previous study. Similarly to most 3′ CITEs, the OPMV BTE links to the 5′ end via a long-distance RNA-RNA interaction. Analysis of 14 BTEs revealed additional conserved sequences and structural features beyond the previously identified 17-nt conserved sequence. IMPORTANCE Opium poppy mosaic virus (OPMV) is an umbravirus in the family Tombusviridae . We determined that OPMV accumulates two similarly sized subgenomic RNAs (sgRNAs), with the smaller known to code for proteins expressed from overlapping open reading frames. The slightly larger sgRNA1 has a 5′ end just upstream from a previously predicted xrRNA D site, identifying this sgRNA as an unusually long product produced by exoribonuclease trimming. Although four umbraviruses have similar predicted xrRNA D sites, only sgRNA1 of OPMV can code for a protein that is an extension product of umbravirus ORF4. Inability to generate the sgRNA or translate this protein was associated with reduced gRNA accumulation in vivo . We also characterized the OPMV BTE structure, a 3′ cap-independent translation enhancer (3′ CITE). Comparisons of 13 BTEs with the OPMV BTE revealed additional stretches of sequence similarity beyond the 17-nt signature sequence, as well as conserved structural features not previously recognized in these 3′ CITEs. 

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2. Identification of Novel 5′ and 3′ Translation Enhancers in Umbravirus-Like Coat Protein-Deficient RNA Replicons

   https://doi.org/10.1128/jvi.01736-21  

   Liu, Jingyuan ; Simon, Anne E. ( April 2022 , Journal of Virology)

   Dutch, Rebecca Ellis (Ed.)

   ABSTRACT Translation of plant plus-strand RNA viral genomes that lack a 5′ cap frequently requires the use of cap-independent translation enhancers (CITEs) located in or near the 3′ untranslated region (UTR). 3′CITEs are grouped based on secondary structure and ability to interact with different translation initiation factors or ribosomal subunits, which assemble a complex at the 3′ end that is nearly always transferred to the 5′ end via a long-distance kissing-loop interaction between sequences in the 3′CITE and 5′ hairpins. We report here the identification of a novel 3′CITE in coat protein-deficient RNA replicons that are related to umbraviruses. Umbra-like associated RNAs (ulaRNAs), such as citrus yellow vein-associated virus (CYVaV), are a new type of subviral RNA that do not encode movement proteins, coat proteins, or silencing suppressors but can independently replicate using their encoded RNA-dependent RNA polymerase. An extended hairpin structure containing multiple internal loops in the 3′ UTR of CYVaV is strongly conserved in the most closely related ulaRNAs and structurally resembles an I-shaped structure (ISS) 3′CITE. However, unlike ISS, the CYVaV structure binds to eIF4G and no long-distance interaction is discernible between the CYVaV ISS-like structure and sequences at or near the 5′ end. We also report that the ∼30-nucleotide (nt) 5′ terminal hairpin of CYVaV and related ulaRNAs can enhance translation of reporter constructs when associated with either the CYVaV 3′CITE or the 3′CITEs of umbravirus pea enation mosaic virus (PEMV2) and even independent of a 3′CITE. These findings introduce a new type of 3′CITE and provide the first information on translation of ulaRNAs. IMPORTANCE Umbra-like associated RNAs (ulaRNAs) are a recently discovered type of subviral RNA that use their encoded RNA-dependent RNA polymerase for replication but do not encode any coat proteins, movement proteins, or silencing suppressors yet can be found in plants in the absence of any discernible helper virus. We report the first analysis of their translation using class 2 ulaRNA citrus yellow vein-associated virus (CYVaV). CYVaV uses a novel eIF4G-binding I-shaped structure as its 3′ cap-independent translation enhancer (3′CITE), which does not connect with the 5′ end by a long-distance RNA:RNA interaction that is typical of 3′CITEs. ulaRNA 5′ terminal hairpins can also enhance translation in association with cognate 3′CITEs or those of related ulaRNAs and, to a lesser extent, with 3′CITEs of umbraviruses, or even independent of a 3′CITE. These findings introduce a new type of 3′CITE and provide the first information on translation of ulaRNAs. 

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3. Novel 3′ Proximal Replication Elements in Umbravirus Genomes

   https://doi.org/10.3390/v14122615  

   Johnson, Philip Z. ; Reuning, Hannah M. ; Bera, Sayanta ; Gao, Feng ; Du, Zhiyou ; Simon, Anne E. ( December 2022 , Viruses)

   The 3′ untranslated regions (UTRs) of positive-strand RNA plant viruses commonly contain elements that promote viral replication and translation. The ~700 nt 3′UTR of umbravirus pea enation mosaic virus 2 (PEMV2) contains three 3′ cap-independent translation enhancers (3′CITEs), including one (PTE) found in members of several genera in the family Tombusviridae and another (the 3′TSS) found in numerous umbraviruses and several carmoviruses. In addition, three 3′ terminal replication elements are found in nearly every umbravirus and carmovirus. For this report, we have identified a set of three hairpins and a putative pseudoknot, collectively termed “Trio”, that are exclusively found in a subset of umbraviruses and are located just upstream of the 3′TSS. Modification of these elements had no impact on viral translation in wheat germ extracts or in translation of luciferase reporter constructs in vivo. In contrast, Trio hairpins were critical for viral RNA accumulation in Arabidopsis thaliana protoplasts and for replication of a non-autonomously replicating replicon using a trans-replication system in Nicotiana benthamiana leaves. Trio and other 3′ terminal elements involved in viral replication are highly conserved in umbraviruses possessing different classes of upstream 3′CITEs, suggesting conservation of replication mechanisms among umbraviruses despite variation in mechanisms for translation enhancement. 

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4. Crystal structure of a cap-independent translation enhancer RNA

   https://doi.org/10.1093/nar/gkad649  

   Lewicka, Anna ; Roman, Christina ; Jones, Stacey ; Disare, Michael ; Rice, Phoebe A. ; Piccirilli, Joseph A. ( August 2023 , Nucleic Acids Research)

   In eukaryotic messenger RNAs, the 5′ cap structure binds to the translation initiation factor 4E to facilitate early stages of translation. Although many plant viruses lack the 5′ cap structure, some contain cap-independent translation elements (CITEs) in their 3′ untranslated region. The PTE (Panicum mosaic virus translation element) class of CITEs contains a G-rich asymmetric bulge and a C-rich helical junction that were proposed to interact via formation of a pseudoknot. SHAPE analysis of PTE homologs reveals a highly reactive guanosine residue within the G-rich region proposed to mediate eukaryotic initiation factor 4E (eIF4E) recognition. Here we have obtained the crystal structure of the PTE from Pea enation mosaic virus 2 (PEMV2) RNA in complex with our structural chaperone, Fab BL3–6. The structure reveals that the G-rich and C-rich regions interact through a complex network of interactions distinct from those expected for a pseudoknot. The motif, which contains a short parallel duplex, provides a structural mechanism for how the guanosine is extruded from the core stack to enable eIF4E recognition. Homologous PTE elements harbor a G-rich bulge and a three-way junction and exhibit covariation at crucial positions, suggesting that the PEMV2 tertiary architecture is conserved among these homologs.

    

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5. Structural Analysis and Whole Genome Mapping of a New Type of Plant Virus Subviral RNA: Umbravirus-Like Associated RNAs

   https://doi.org/10.3390/v13040646  

   Liu, Jingyuan ; Carino, Elizabeth ; Bera, Sayanta ; Gao, Feng ; May, Jared P. ; Simon, Anne E. ( April 2021 , Viruses)

   null (Ed.)

   We report the biological and structural characterization of umbravirus-like associated RNAs (ulaRNAs), a new category of coat-protein dependent subviral RNA replicons that infect plants. These RNAs encode an RNA-dependent RNA polymerase (RdRp) following a −1 ribosomal frameshift event, are 2.7–4.6 kb in length, and are related to umbraviruses, unlike similar RNA replicons that are related to tombusviruses. Three classes of ulaRNAs are proposed, with citrus yellow vein associated virus (CYVaV) placed in Class 2. With the exception of CYVaV, Class 2 and Class 3 ulaRNAs encode an additional open reading frame (ORF) with movement protein-like motifs made possible by additional sequences just past the RdRp termination codon. The full-length secondary structure of CYVaV was determined using Selective 2’ Hydroxyl Acylation analyzed by Primer Extension (SHAPE) structure probing and phylogenic comparisons, which was used as a template for determining the putative structures of the other Class 2 ulaRNAs, revealing a number of distinctive structural features. The ribosome recoding sites of nearly all ulaRNAs, which differ significantly from those of umbraviruses, may exist in two conformations and are highly efficient. The 3′ regions of Class 2 and Class 3 ulaRNAs have structural elements similar to those of nearly all umbraviruses, and all Class 2 ulaRNAs have a unique, conserved 3′ cap-independent translation enhancer. CYVaV replicates independently in protoplasts, demonstrating that the reported sequence is full-length. Additionally, CYVaV contains a sequence in its 3′ UTR that confers protection to nonsense mediated decay (NMD), thus likely obviating the need for umbravirus ORF3, a known suppressor of NMD. This initial characterization lays down a road map for future investigations into these novel virus-like RNAs. 

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