Infectious cDNA clones of Apple latent spherical virus (ALSV)-RNA1 (pEALSR1) and -RNA2 (pEALSR2) were constructed using an enhanced 35S promoter. A viral vector was constructed from pEALSR2 by creating artificial protease processing sites by duplicating the Q/G protease cleavage site between 42KP and Vp25. Eight RNA2-derived vectors expressing GFP with varied sizes of duplications around the 42KP/Vp25 junction were constructed and tested for infectivity in Chenopodium quinoa. The results indicated that greater than five aa from the C-terminus of 42KP and N-terminus of Vp25 in duplication are necessary for systemic infection. In infected C. quinoa plants, GFP fluorescence was observed in both inoculated and upper leaves. Serial passages of the viruses derived from the above vectors in C. quinoa showed that the size of duplications affected the stability of the GFP gene. The version of the RNA2-vector (pER2L5R5GFP) with the shortest duplications and its silent mutant version could stably express GFP in leaves even after at least nine serial passages. ALSV-RNA2 vector has a capacity to maintain a DNA insert as long as 1300 bp because Apple chlorotic leaf spot virus movement protein (50KP) gene could be expressed in C. quinoa. Inoculation of a virus derived from pER2L5R5GFP to apple seedlings resulted in the expression of GFP fluorescence in uninoculated upper leaves, indicating that the vector is available for the expression of foreign genes in apple trees.
Immunoblot analysis of apple latent spherical cheravirus (ALSV)-infected leaves using a polyclonal antibody against the 21 C-terminal amino acids of a 53 K/42 K movement protein (MP) showed that a protein with an Mr of 42 kDa (42KP) is the dominant form found in vivo, which could indicate that the second AUG is used as an initiation codon of a ORF in RNA2. Co-expression of GFP with 42KP in tobacco epidermal cells showed that 42KP is able to facilitate cell-to-cell trafficking of GFP that is expressed in the same cells. The analysis of deletion mutants on each of MP, Vp24, Vp20, or Vp25 using an ALSV vector that stably expresses GFP indicated that an MP and three capsid proteins are all indispensable for the cell-to-cell movement of the virus. In ultrathin sections of infected leaves, a file of virus-like particles passing through the plasmodesmata connecting neighboring cells and tubular structures containing virus-like particles extending into the cytoplasm were observed. These results show that ALSV moves from cell to cell as virus particles.
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