A single nucleotide substitution in TaHKT1;5-D controls shoot Na+ accumulation in bread wheat

Chana Borjigin; Rhiannon K. Schilling; Jayakumar Bose; Maria Hrmova; Jiaen Qiu; Stefanie Wege; Apriadi Situmorang; Caitlin Byrt; Chris Brien; Bettina Berger; Matthew Gilliham; Allison S. Pearson; Stuart J. Roy

doi:10.1111/pce.13841

A single nucleotide substitution in TaHKT1;5-D controls shoot Na⁺ accumulation in bread wheat

Chana Borjigin, Rhiannon K. Schilling, Jayakumar Bose, Maria Hrmova, Jiaen Qiu, Stefanie Wege, Apriadi Situmorang, Caitlin Byrt, Chris Brien, Bettina Berger, Matthew Gilliham, Allison S. Pearson, Stuart J. Roy

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Abstract

Improving salinity tolerance in the most widely cultivated cereal, bread wheat (Triticum aestivum L.), is essential to increase grain yields on saline agricultural lands. A Portuguese landrace, Mocho de Espiga Branca accumulates up to sixfold greater leaf and sheath sodium (Na⁺) than two Australian cultivars, Gladius and Scout, under salt stress in hydroponics. Despite high leaf and sheath Na⁺ concentrations, Mocho de Espiga Branca maintained similar salinity tolerance compared to Gladius and Scout. A naturally occurring single nucleotide substitution was identified in the gene encoding a major Na⁺ transporter TaHKT1;5-D in Mocho de Espiga Branca, which resulted in a L190P amino acid residue variation. This variant prevents Mocho de Espiga Branca from retrieving Na⁺ from the root xylem leading to a high shoot Na⁺ concentration. The identification of the tissue-tolerant Mocho de Espiga Branca will accelerate the development of more elite salt-tolerant bread wheat cultivars.

Original language	English
Pages (from-to)	2158-2171
Number of pages	14
Journal	Plant Cell and Environment
Volume	43
Issue number	9
DOIs	https://doi.org/10.1111/pce.13841
Publication status	Published - Sept 2020
Externally published	Yes

Keywords

Na transport
plant growth
salt tolerance
sodium
xylem sap Na

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title = "A single nucleotide substitution in TaHKT1;5-D controls shoot Na+ accumulation in bread wheat",

abstract = "Improving salinity tolerance in the most widely cultivated cereal, bread wheat (Triticum aestivum L.), is essential to increase grain yields on saline agricultural lands. A Portuguese landrace, Mocho de Espiga Branca accumulates up to sixfold greater leaf and sheath sodium (Na+) than two Australian cultivars, Gladius and Scout, under salt stress in hydroponics. Despite high leaf and sheath Na+ concentrations, Mocho de Espiga Branca maintained similar salinity tolerance compared to Gladius and Scout. A naturally occurring single nucleotide substitution was identified in the gene encoding a major Na+ transporter TaHKT1;5-D in Mocho de Espiga Branca, which resulted in a L190P amino acid residue variation. This variant prevents Mocho de Espiga Branca from retrieving Na+ from the root xylem leading to a high shoot Na+ concentration. The identification of the tissue-tolerant Mocho de Espiga Branca will accelerate the development of more elite salt-tolerant bread wheat cultivars.",

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author = "Chana Borjigin and Schilling, {Rhiannon K.} and Jayakumar Bose and Maria Hrmova and Jiaen Qiu and Stefanie Wege and Apriadi Situmorang and Caitlin Byrt and Chris Brien and Bettina Berger and Matthew Gilliham and Pearson, {Allison S.} and Roy, {Stuart J.}",

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AU - Borjigin, Chana

AU - Schilling, Rhiannon K.

AU - Bose, Jayakumar

AU - Hrmova, Maria

AU - Qiu, Jiaen

AU - Wege, Stefanie

AU - Situmorang, Apriadi

AU - Byrt, Caitlin

AU - Brien, Chris

AU - Berger, Bettina

AU - Gilliham, Matthew

AU - Pearson, Allison S.

AU - Roy, Stuart J.

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N2 - Improving salinity tolerance in the most widely cultivated cereal, bread wheat (Triticum aestivum L.), is essential to increase grain yields on saline agricultural lands. A Portuguese landrace, Mocho de Espiga Branca accumulates up to sixfold greater leaf and sheath sodium (Na+) than two Australian cultivars, Gladius and Scout, under salt stress in hydroponics. Despite high leaf and sheath Na+ concentrations, Mocho de Espiga Branca maintained similar salinity tolerance compared to Gladius and Scout. A naturally occurring single nucleotide substitution was identified in the gene encoding a major Na+ transporter TaHKT1;5-D in Mocho de Espiga Branca, which resulted in a L190P amino acid residue variation. This variant prevents Mocho de Espiga Branca from retrieving Na+ from the root xylem leading to a high shoot Na+ concentration. The identification of the tissue-tolerant Mocho de Espiga Branca will accelerate the development of more elite salt-tolerant bread wheat cultivars.

AB - Improving salinity tolerance in the most widely cultivated cereal, bread wheat (Triticum aestivum L.), is essential to increase grain yields on saline agricultural lands. A Portuguese landrace, Mocho de Espiga Branca accumulates up to sixfold greater leaf and sheath sodium (Na+) than two Australian cultivars, Gladius and Scout, under salt stress in hydroponics. Despite high leaf and sheath Na+ concentrations, Mocho de Espiga Branca maintained similar salinity tolerance compared to Gladius and Scout. A naturally occurring single nucleotide substitution was identified in the gene encoding a major Na+ transporter TaHKT1;5-D in Mocho de Espiga Branca, which resulted in a L190P amino acid residue variation. This variant prevents Mocho de Espiga Branca from retrieving Na+ from the root xylem leading to a high shoot Na+ concentration. The identification of the tissue-tolerant Mocho de Espiga Branca will accelerate the development of more elite salt-tolerant bread wheat cultivars.

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A single nucleotide substitution in TaHKT1;5-D controls shoot Na⁺ accumulation in bread wheat

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