Regulation of plasmodesmata in Arabidopsis leaves: ATP, NADPH and chlorophyll b levels matter

In source leaves, regulation of plasmodesmata by ATP and NADPH levels overrides regulation by ROS and thioredoxins, linking assimilate export from the leaves to the activity of Calvin–Benson cycle. Abstract In mature leaves, cell-to-cell transport via plasmodesmata between mesophyll cells links the...

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Published in:Journal of experimental botany 2021-07, Vol.72 (15), p.5534-5552
Main Authors: Dmitrieva, Valeria A, Domashkina, Valentina V, Ivanova, Alexandra N, Sukhov, Vladimir S, Tyutereva, Elena V, Voitsekhovskaja, Olga V
Format: Article
Language:English
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Summary:In source leaves, regulation of plasmodesmata by ATP and NADPH levels overrides regulation by ROS and thioredoxins, linking assimilate export from the leaves to the activity of Calvin–Benson cycle. Abstract In mature leaves, cell-to-cell transport via plasmodesmata between mesophyll cells links the production of assimilates by photosynthesis with their export to sink organs. This study addresses the question of how signals derived from chloroplasts and photosynthesis influence plasmodesmata permeability. Cell-to-cell transport was analyzed in leaves of the Arabidopsis chlorophyll b-less ch1-3 mutant, the same mutant complemented with a cyanobacterial CAO gene (PhCAO) overaccumulating chlorophyll b, the trxm3 mutant lacking plastidial thioredoxin m3, and the ntrc mutant lacking functional NADPH:thioredoxin reductase C. The regulation of plasmodesmata permeability in these lines could not be traced back to the reduction state of the thioredoxin system or the types and levels of reactive oxygen species produced in chloroplasts; however, it could be related to chloroplast ATP and NADPH production. The results suggest that light enables plasmodesmata closure via an increase in the ATP and NADPH levels produced in photosynthesis, providing a control mechanism for assimilate export based on the rate of photosynthate production in the Calvin–Benson cycle. The level of chlorophyll b influences plasmodesmata permeability via as-yet-unidentified signals. The data also suggest a role of thioredoxin m3 in the regulation of cyclic electron flow around photosystem I.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erab205