Gene expression analysis in response to combined salt and boron (B) stresses in a tolerant maize landrace

To understand the molecular stress response in maize plants to high salt and boron (B) stress, we focused on the transcript accumulation of six stress-related genes in Lluteno maize, a sweet corn landrace from the Lluta valley (northern Chile). This landrace is tolerant to salt and B stress. A rando...

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Bibliographic Details
Published in:Plant omics 2018-05, Vol.11 (2), p.80-88
Main Authors: Wilson Huanca-Mamani, Marcelo Vargas Ortiz, Steffany Cardenas-Ninasivincha, Gerardo Acosta-Garcia, Elizabeth Bastias
Format: Article
Language:English
Subjects:
Breeding
Cell membranes
Corn
Crops and soils
Effect of sodium on
Growth (Plants)
Plants
Salt-tolerant crops
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Summary:To understand the molecular stress response in maize plants to high salt and boron (B) stress, we focused on the transcript accumulation of six stress-related genes in Lluteno maize, a sweet corn landrace from the Lluta valley (northern Chile). This landrace is tolerant to salt and B stress. A randomized complete block design with four replications was used. Seedlings of Lluteno maize and maize hybrid B73 were exposed to 150 mM NaCl and 20 ppm B in nutrient solution for 120 hrs, then root and leaf samples were collected and Na+ and B content were determined. Transcript accumulation of three salt stress-related genes SOS1, NHX2 and HKT1 and three B stress-related genes BOR1, BOR2 and PIP1;2 were determined in roots and leaves of Llute o maize using RT-PCR and real-time PCR at 3 and 96 h after treatment with 150 mM NaCl and/or 20 ppm B. The results indicated that combined salt and B stress caused changes in physiological parameters. The damage was more severe in B73 than in Lluteno maize, confirming that this landrace behaves as a plant tolerant to these stresses. Regulation of stress-related genes under combined stress was different under individual stresses. The ability of Lluteno maize to survive and thrive in soil with high salinity and B concentration is probably based on a decrease in membrane water permeability, preventing salt and B uptake from the roots through down-regulation of BOR1, BOR2 transporters and PIP1;2 aquaporin. The increased water transport is mediated by the up-regulation of the PIP1;2 in leaves, allowing cellular water conservation, and the retrieval of Na+ from xylem through up-regulation of HKT1;1 transporters in roots and leaves.
ISSN:1836-0661
1836-3644
DOI:10.21475/poj.11.02.18.pne1144