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Low levels of strigolactones in roots as a component of the systemic signal of drought stress in tomato
I. Visentin, M. Vitali, M. Ferrero, Y. Zhang, C. Ruyter-Spira, O. Novák, M. Strnad, C. Lovisolo, A. Schubert, F. Cardinale,
Language English Country Great Britain
Document type Journal Article
NLK
Free Medical Journals
from 1902 to 1 year ago
Wiley Free Content
from 1997 to 1 year ago
PubMed
27716937
DOI
10.1111/nph.14190
Knihovny.cz E-resources
- MeSH
- Models, Biological MeSH
- Biosynthetic Pathways genetics MeSH
- Dehydration MeSH
- Phenotype MeSH
- Stress, Physiological * genetics MeSH
- Plant Roots metabolism MeSH
- Abscisic Acid metabolism MeSH
- Lactones metabolism MeSH
- Plant Leaves physiology MeSH
- RNA, Messenger genetics metabolism MeSH
- Droughts * MeSH
- Gene Expression Regulation, Plant MeSH
- Genes, Plant MeSH
- Signal Transduction * MeSH
- Solanum lycopersicum genetics physiology MeSH
- Plant Transpiration MeSH
- Water physiology MeSH
- Plant Shoots genetics metabolism MeSH
- Publication type
- Journal Article MeSH
Strigolactones (SL) contribute to drought acclimatization in shoots, because SL-depleted plants are hypersensitive to drought due to stomatal hyposensitivity to abscisic acid (ABA). However, under drought, SL biosynthesis is repressed in roots, suggesting organ specificity in their metabolism and role. Because SL can be transported acropetally, such a drop may also affect shoots, as a systemic indication of stress. We investigated this hypothesis by analysing molecularly and physiologically wild-type (WT) tomato (Solanum lycopersicum) scions grafted onto SL-depleted rootstocks, compared with self-grafted WT and SL-depleted genotypes, during a drought time-course. Shoots receiving few SL from the roots behaved as if under mild stress even if irrigated. Their stomata were hypersensitive to ABA (likely via a localized enhancement of SL synthesis in shoots). Exogenous SL also enhanced stomata sensitivity to ABA. As the partial shift of SL synthesis from roots to shoots mimics what happens under drought, a reduction of root-produced SL might represent a systemic signal unlinked from shootward ABA translocation, and sufficient to prime the plant for better stress avoidance.
Laboratory of Plant Physiology DISAFA Turin University Grugliasco 10095 TO Italy
Laboratory of Plant Physiology Wageningen University 6708 PB Wageningen the Netherlands
References provided by Crossref.org
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