In Fabaceae, dispersion of forisomes-highly ordered aggregates of sieve element proteins-in response to phytoplasma infection was proposed to limit phloem mass flow and, hence, prevent pathogen spread. In this study, the involvement of flamentous sieve element proteins in the containment of phytoplasmas was investigated in nonFabaceae plants. Healthy and infected Arabidopsis plants lacking one or two genes related to sieve element flament formation-AtSEOR1 (At3g01680), AtSEOR2 (At3g01670), and AtPP2-A1 (At4g19840)-were analysed. TEM images revealed that phytoplasma infection induces phloem protein flament formation in both the wild-type and mutant lines. This result suggests that, in contrast to previous hypotheses, sieve element flaments can be produced independently of AtSEOR1 and AtSEOR2 genes. Filament presence was accompanied by a compensatory overexpression of sieve element protein genes in infected mutant lines in comparison with wild-type lines. No correlation was found between phloem mass flow limitation and phytoplasma titre, which suggests that sieve element proteins are involved in defence mechanisms other than mechanical limitation of the pathogen.

Filamentous sieve element proteins are able to limit phloem mass flow, but not phytoplasma spread / Pagliari, L.; Buoso, S.; Santi, S.; Furch, A. C. U.; Martini, M.; Degola, F.; Loschi, A.; Van Bel, A. J. E.; Musetti, R.. - In: JOURNAL OF EXPERIMENTAL BOTANY. - ISSN 0022-0957. - 68:13(2017), pp. 3673-3688. [10.1093/jxb/erx199]

Filamentous sieve element proteins are able to limit phloem mass flow, but not phytoplasma spread

Degola F.
Investigation
;
2017

Abstract

In Fabaceae, dispersion of forisomes-highly ordered aggregates of sieve element proteins-in response to phytoplasma infection was proposed to limit phloem mass flow and, hence, prevent pathogen spread. In this study, the involvement of flamentous sieve element proteins in the containment of phytoplasmas was investigated in nonFabaceae plants. Healthy and infected Arabidopsis plants lacking one or two genes related to sieve element flament formation-AtSEOR1 (At3g01680), AtSEOR2 (At3g01670), and AtPP2-A1 (At4g19840)-were analysed. TEM images revealed that phytoplasma infection induces phloem protein flament formation in both the wild-type and mutant lines. This result suggests that, in contrast to previous hypotheses, sieve element flaments can be produced independently of AtSEOR1 and AtSEOR2 genes. Filament presence was accompanied by a compensatory overexpression of sieve element protein genes in infected mutant lines in comparison with wild-type lines. No correlation was found between phloem mass flow limitation and phytoplasma titre, which suggests that sieve element proteins are involved in defence mechanisms other than mechanical limitation of the pathogen.
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/11381/2889237
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