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1.  Virion Tails of Beet Yellows Virus: Coordinated Assembly by Three Structural Proteins 
Virology  2006;359(1):220-226.
Filamentous virions of Beet yellows virus contain a long body formed by a major capsid protein and a short tail that is assembled by a minor capsid protein (CPm), an Hsp70-homolog (Hsp70h), a 64-kDa protein (p64), and a 20-kDa protein (p20). Using mutation analysis and newly developed in planta assays, here we investigate the genetic requirements for the tail assembly. We show that the inactivation of CPm dramatically reduces incorporation of both Hsp70h and p64. Furthermore, inactivation of Hsp70h prevents incorporation of p64 into virions and vice versa. Hsp70h and p64 are each required for efficient incorporation of CPm. We also show that the tails possessing normal relative amounts of CPm, Hsp70h, and p64 can be formed in the absence of the major capsid protein and p20. Similar to the tails isolated from the wild type virions, these mutant tails encapsidate the ~700 nt-long, 5’-terminal segments of the viral RNA. Taken together, our results imply that CPm, Hsp70h and p64 act cooperatively to encapsidate a defined region of the closterovirus genome.
doi:10.1016/j.virol.2006.09.007
PMCID: PMC1847569  PMID: 17027895
Virus assembly; helical virion; Closterovirus; Hsp70
2.  The 64-Kilodalton Capsid Protein Homolog of Beet Yellows Virus Is Required for Assembly of Virion Tails 
Journal of Virology  2003;77(4):2377-2384.
The filamentous virion of the closterovirus Beet yellows virus (BYV) consists of a long body formed by the major capsid protein (CP) and a short tail composed of the minor capsid protein (CPm) and the virus-encoded Hsp70 homolog. By using nano-liquid chromatography-tandem mass spectrometry and biochemical analyses, we show here that the BYV 64-kDa protein (p64) is the fourth integral component of BYV virions. The N-terminal domain of p64 is exposed at the virion surface and is accessible to antibodies and mild trypsin digestion. In contrast, the C-terminal domain is embedded in the virion and is inaccessible to antibodies or trypsin. The C-terminal domain of p64 is shown to be homologous to CP and CPm. Mutation of the signature motifs of capsid proteins of filamentous RNA viruses in p64 results in the formation of tailless virions, which are unable to move from cell to cell. These results reveal the dual function of p64 in tail assembly and BYV motility and support the concept of the virion tail as a specialized device for BYV cell-to-cell movement.
doi:10.1128/JVI.77.4.2377-2384.2003
PMCID: PMC141117  PMID: 12551975

Results 1-2 (2)