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Tracking viral movement in plants by means of chlorophyll fluorescence imaging |
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| Authors: | Pineda Mónica Olejníčková Julie Cséfalvay Ladislav Barón Matilde |
| Institution: | a Department of Biochemistry, Molecular and Cell Biology of Plants, Estación Experimental del Zaidín, Consejo Superior de Investigaciones Científicas (CSIC), C/ Profesor Albareda, n° 1, C.P. 18008, Granada, Spain b Institute of Systems Biology and Ecology, Academy of Sciences of the Czech Republic, Zámek 136, Nové Hrady 37333, Czech Republic c Institute of Physical Biology, University of S. Bohemia, Zámek 136, Nové Hrady 37333, Czech Republic |
| Abstract: | Many techniques have been applied to understand viral cell-to-cell movement in host plants, but little progress has been made in understanding viral vascular transport mechanisms. We propose the use of chlorophyll fluorescence imaging techniques, not only to diagnose the viral infection, but also to follow the movement of the virus through the vascular system and its subsequent spread into the leaves. In Nicotiana benthamiana plants, imaging of chlorophyll fluorescence parameters such as ФPSII and NPQ proved useful to follow infections with Pepper mild mottle virus. The results demonstrate a correlation between changes in the chlorophyll fluorescence parameters and the viral distribution analyzed by tissue printing. |
| Keywords: | AS asymptomatic Chl-F chlorophyll fluorescence Chl-FI chlorophyll fluorescence imaging CP coat protein DPI days post-inoculation F0 minimum chlorophyll fluorescence in the dark adapted state F10 chlorophyll fluorescence value after 10 s of actinic light FM maximum chlorophyll fluorescence in the dark adapted state _method=retrieve& _eid=1-s2 0-S0176161711003154& _mathId=si1 gif& _pii=S0176161711003154& _issn=01761617& _acct=C000051805& _version=1& _userid=1154080& md5=1640681697e26930dc52a4a9aeb92fe9')" style="cursor:pointer F&prime" target="_blank">" alt="Click to view the MathML source" title="Click to view the MathML source">F&prime M maximum chlorophyll fluorescence in the light adapted state FV/FM maximum photosystem II quantum yield ΦPSII effective photosystem II quantum yield NPQ non-photochemical quenching PMMoV-S and -I Spanish and Italian strains of the Pepper mild mottle virus PSII photosystem II S symptomatic |
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