Structural variations in wheat HKT1;5 underpin differences in Na+ transport capacity

被引:0
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作者
Bo Xu
Shane Waters
Caitlin S. Byrt
Darren Plett
Stephen D. Tyerman
Mark Tester
Rana Munns
Maria Hrmova
Matthew Gilliham
机构
[1] University of Adelaide,Australian Research Council Centre of Excellence in Plant Energy Biology, Waite Research Precinct
[2] University of Adelaide,School of Agriculture, Food and Wine, and Waite Research Institute, Waite Research Precinct
[3] King Abdullah University of Science and Technology,Division of Biological and Environmental Sciences and Engineering, Center for Desert Agriculture
[4] University of Western Australia,School of Agriculture and Environment, and ARC Centre of Excellence in Plant Energy Biology
来源
Cellular and Molecular Life Sciences | 2018年 / 75卷
关键词
Gatekeeper cells; Salt exclusion; Ion transport; Structure–function; Einkorn; Bread; Salt tolerance; Xenopus; Mutagenesis; Yeast; High-affinity K; transporter;
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学科分类号
摘要
An important trait associated with the salt tolerance of wheat is the exclusion of sodium ions (Na+) from the shoot. We have previously shown that the sodium transporters TmHKT1;5-A and TaHKT1;5-D, from Triticum monoccocum (Tm) and Triticum aestivum (Ta), are encoded by genes underlying the major shoot Na+-exclusion loci Nax1 and Kna1, respectively. Here, using heterologous expression, we show that the affinity (Km) for the Na+ transport of TmHKT1;5-A, at 2.66 mM, is higher than that of TaHKT1;5-D at 7.50 mM. Through 3D structural modelling, we identify residues D471/a gap and D474/G473 that contribute to this property. We identify four additional mutations in amino acid residues that inhibit the transport activity of TmHKT1;5-A, which are predicted to be the result of an occlusion of the pore. We propose that the underlying transport properties of TmHKT1;5-A and TaHKT1;5-D contribute to their unique ability to improve Na+ exclusion in wheat that leads to an improved salinity tolerance in the field.
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页码:1133 / 1144
页数:11
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