M. M. Swanson scite author profile

The P19 protein of Tomato bushy stunt virus is a potent suppressor of RNA silencing and, depending on the host species, is required for short-and long-distance virus movement and symptom production. P19 interacts with plant ALY proteins and relocalizes a subset of these proteins from the nucleus to the cytoplasm. Here we showed that coexpression by agroinfiltration in Nicotiana benthamiana of P19 and the subset of ALY proteins that are not relocalized from the nucleus interfered with the ability of P19 to suppress RNA silencing. We demonstrated that this interference correlates with the relocation of P19 from the cytoplasm into the nucleus, and by constructing and analyzing chimeric ALY genes, we showed that the C-terminal part of the central, RNA recognition motif of ALY is responsible for interaction with P19, relocalization or nonrelocalization of ALY, and inhibition of silencing suppression by P19. We studied the interaction of ALY and P19 by using the technique of bimolecular fluorescence complementation to show that these proteins associate physically in the nucleus but not detectably in the cytoplasm, and we present a model to explain the dynamics of this interaction.

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A plant viral coat protein RNA binding consensus sequence contains a crucial arginine.

Ansel-McKinney

Scott

Swanson

et al. 1996

The EMBO Journal

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A defining feature of alfalfa mosaic virus (AMV) and ilarviruses [type virus: tobacco streak virus (TSV)] is that, in addition to genomic RNAs, viral coat protein is required to establish infection in plants. AMV and TSV coat proteins, which share little primary amino acid sequence identity, are functionally interchangeable in RNA binding and initiation of infection. The lysinerich amino-terminal RNA binding domain of the AMV coat protein lacks previously identified RNA binding motifs. Here, the AMV coat protein RNA binding domain is shown to contain a single arginine whose specific side chain and position are crucial for RNA binding. In addition, the putative RNA binding domain of two ilarvirus coat proteins, TSV and citrus variegation virus, is identified and also shown to contain a crucial arginine. AMV and ilarvirus coat protein sequence alignment centering on the key arginine revealed a new RNA binding consensus sequence. This consensus may explain in part why heterologous viral RNA-coat protein mixtures are infectious.

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Functional Replacement of the Tobacco rattle virus Cysteine-rich Protein by Pathogenicity Proteins from Unrelated Plant Viruses

Liu¹,

Reavy²,

Swanson³

et al. 2002

Virology

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Mutation of the 16K gene encoded by RNA1 of Tobacco rattle virus (TRV) greatly reduced the levels of viral RNA that accumulated in both infected protoplasts and plants, showing that the 16K cysteine-rich protein (CRP) is required for efficient multiplication of TRV. Overexpression of the 16K protein, either from an additional copy of the gene carried on TRV RNA2 or from a PVX vector, led to an increase in the severity of disease symptoms, suggesting that the protein has a role in the pathogenicity of the virus. Mutation of the 16K gene could be overcome by expression from RNA2 of the Cucumber mosaic virus 2b gene, the Soil-borne wheat mosaic virus 19K gene, or the Barley stripe mosaic virus gammab gene, indicating that the proteins encoded by these diverse genes may have similar functions. One known function of the CMV 2b gene is as a suppressor of posttranscriptional gene silencing, suggesting that the TRV 16K protein may also possess this activity.

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Particle purification, properties and epitope variability of Indian tomato leaf curl geminivirus

Muniyappa

Swanson²,

Duncan³

et al. 1991

Annals of Applied Biology

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A whitefly-transmissible stock isolate of Indian tomato leaf curl geminivirus (ITmLCV) was cultured in graft-inoculated tomato plants and its particles purified from chloroform-clarified extracts in citrate buffer by precipitation with 70 g/litre polyethylene glycol, ultracentrifugation and sucrose density gradient centrifugation. Contaminating helical filaments were eliminated by banding in caesium sulphate gradients. ITmLCV particles had the shape typical for geminiviruses, measured c. 30 x 20 nm and contained a single major protein of estimated mol. wt c. 32 000. They reacted in immunosorbent electron microscopy with antisera to four other whitefly-transmitted geminiviruses. ITmLCV reacted with one out of 17 monoclonal antibodies specific for different epitopes in the particle protein of African cassava mosaic geminivirus and five or six out of 10 monoclonal antibodies to the particle protein of Indian cassava mosaic geminivirus. Virus isolates from tomato at nine locations in Karnataka State showed only slight differences in epitope profile, and isolates from four weed species in tomato fields were similar or identical to those from tomato.

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M. M. Swanson

Translocation of Tomato Bushy Stunt Virus P19 Protein into the Nucleus by ALY Proteins Compromises Its Silencing Suppressor Activity

A plant viral coat protein RNA binding consensus sequence contains a crucial arginine.

Functional Replacement of the Tobacco rattle virus Cysteine-rich Protein by Pathogenicity Proteins from Unrelated Plant Viruses

Particle purification, properties and epitope variability of Indian tomato leaf curl geminivirus

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