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Photosynthetic limitations and volatile and non-volatile isoprenoids in the poikilochlorophyllous resurrection plant Xerophyta humilis during dehydration and rehydration.

Authors :
BECKETT, MEGAN
LORETO, FRANCESCO
VELIKOVA, VIOLETA
BRUNETTI, CECILIA
DI FERDINANDO, MARTINA
TATTINI, MASSIMILIANO
CALFAPIETRA, CARLO
FARRANT, JILL M.
Source :
Plant, Cell & Environment; Dec2012, Vol. 35 Issue 12, p2061-2074, 14p, 1 Chart, 4 Graphs
Publication Year :
2012

Abstract

ABSTRACT We investigated the photosynthetic limitations occurring during dehydration and rehydration of Xerophyta humilis, a poikilochlorophyllous resurrection plant, and whether volatile and non-volatile isoprenoids might be involved in desiccation tolerance. Photosynthesis declined rapidly after dehydration below 85% relative water content (RWC). Raising intercellular CO<subscript>2</subscript> concentrations during desiccation suggest that the main photosynthetic limitation was photochemical, affecting energy-dependent RuBP regeneration. Imaging fluorescence confirmed that both the number of photosystem II (PSII) functional reaction centres and their efficiency were impaired under progressive dehydration, and revealed the occurrence of heterogeneous photosynthesis during desiccation, being the basal leaf area more resistant to the stress. Full recovery in photosynthetic parameters occurred on rehydration, confirming that photosynthetic limitations were fully reversible and that no permanent damage occurred. During desiccation, zeaxanthin and lutein increased only when photosynthesis had ceased, implying that these isoprenoids do not directly scavenge reactive oxygen species, but rather protect photosynthetic membranes from damage and consequent denaturation. X. humilis was found to emit isoprene, a volatile isoprenoid that acts as a membrane strengthener in plants. Isoprene emission was stimulated by drought and peaked at 80% RWC. We surmise that isoprene and non-volatile isoprenoids cooperate in reducing membrane damage in X. humilis, isoprene being effective when desiccation is moderate while non-volatile isoprenoids operate when water deficit is more extreme. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01407791
Volume :
35
Issue :
12
Database :
Complementary Index
Journal :
Plant, Cell & Environment
Publication Type :
Academic Journal
Accession number :
83167895
Full Text :
https://doi.org/10.1111/j.1365-3040.2012.02536.x