Abstract
The genome of bipartite geminiviruses in the genus Begomovirus comprises two circular DNAs: DNA-A and DNA-B. The DNA-B component encodes a nuclear shuttle protein (NSP) and a movement protein (MP), which cooperate for systemic spread of infectious nucleic acids within host plants and affect pathogenicity. MP mediates multiple functions during intra- and intercellular trafficking, such as binding of viral nucleoprotein complexes, targeting to and modification of plasmodesmata, and release of the cargo after cell-to-cell transfer. For Abutilon mosaic virus (AbMV), phosphorylation of MP expressed in bacteria, yeast, and Nicotiana benthamiana plants, respectively, has been demonstrated in previous studies. Three phosphorylation sites (T221, S223, and S250) were identified in its C-terminal oligomerization domain by mass spectrometry, suggesting a regulation of MP by posttranslational modification. To examine the influence of the three sites on the self-interaction in more detail, MP mutants were tested for their interaction in yeast by two-hybrid assays, or by Förster resonance energy transfer (FRET) techniques in planta. Expression constructs with point mutations leading to simultaneous (triple) exchange of T221, S223, and S250 to either uncharged alanine (MPAAA), or phosphorylation charge-mimicking aspartate residues (MPDDD) were compared. MPDDD interfered with MP-MP binding in contrast to MPAAA. The roles of the phosphorylation sites for the viral life cycle were studied further, using plant-infectious AbMV DNA-B variants with the same triple mutants each. When co-inoculated with wild-type DNA-A, both mutants infected N. benthamiana plants systemically, but were unable to do so for some other plant species of the families Solanaceae or Malvaceae. Systemically infected plants developed symptoms and viral DNA levels different from those of wild-type AbMV for most virus-plant combinations. The results indicate a regulation of diverse MP functions by posttranslational modifications and underscore their biological relevance for a complex host plant-geminivirus interaction.
Highlights
Geminiviruses constitute an economically important group of plant-infecting viruses (Rojas et al, 2018; Garcia-Arenal and Zerbini, 2019)
DNA-Bs encoding single or double phosphorylation site movement protein (MP) mutants (T221A/S223A, S250A, T221D/S223D or S250D) (Kleinow et al, 2009b) were amplified by rolling circle amplification (RCA) from total nucleic acids isolated via a cetyltrimethylammonium bromide (CTAB)-based extraction protocol (2.3) from N. benthamiana systemically infected with the respective Abutilon mosaic virus (AbMV) mutant version (Kleinow et al, 2009b)
To analyze the functional role of AbMV MP phosphorylation in planta in closer detail, two novel infectious DNA-B constructs were generated that encode MPs with triple amino acid substitutions for T221, S223 and S250 against either aspartate (MPDDD; “constant-on of charge”) or alanine (MPAAA; “constantoff of charge”) in all three positions
Summary
Geminiviruses constitute an economically important group of plant-infecting viruses (Rojas et al, 2018; Garcia-Arenal and Zerbini, 2019). The nuclear shuttle function can be mediated by NSP or redundantly by CP in case of a defective NSP (Qin et al, 1998) Besides their coordinated action during viral spread, NSP and MP determine viral pathogenicity collaboratively (Rojas et al, 2005; Zhou et al, 2007; Jeske, 2009; Hanley-Bowdoin et al, 2013)
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