|Wheat grain yield on saline soils is improved by an ancestral Na+ transporter gene|
R Munns, RA James, B Xu, A Athman, SJ Conn, C Jordans, CS Byrt, ...
Nature biotechnology 30 (4), 360-364, 2012
|Na+ transport in glycophytic plants: what we know and would like to know|
D CRAIG PLETT, IS Møller
Plant, cell & environment 33 (4), 612-626, 2010
|Improved salinity tolerance of rice through cell type-specific expression of AtHKT1; 1|
D Plett, G Safwat, M Gilliham, IS Møller, S Roy, N Shirley, A Jacobs, ...
PLoS One 5 (9), e12571, 2010
|A two-staged model of Na+ exclusion in rice explained by 3D modeling of HKT transporters and alternative splicing|
O Cotsaftis, D Plett, N Shirley, M Tester, M Hrmova
PLoS One 7 (7), e39865, 2012
|Expression of the Arabidopsis vacuolar H+‐pyrophosphatase gene (AVP1) improves the shoot biomass of transgenic barley and increases grain yield in a saline …|
RK Schilling, P Marschner, Y Shavrukov, B Berger, M Tester, SJ Roy, ...
Plant biotechnology journal 12 (3), 378-386, 2014
|Dichotomy in the NRT gene families of dicots and grass species|
D Plett, J Toubia, T Garnett, M Tester, BN Kaiser, U Baumann
PloS one 5 (12), e15289, 2010
|The Na+ transporter, TaHKT1;5‐D, limits shoot Na+ accumulation in bread wheat|
CS Byrt, B Xu, M Krishnan, DJ Lightfoot, A Athman, AK Jacobs, ...
The Plant Journal 80 (3), 516-526, 2014
|Root-specific transcript profiling of contrasting rice genotypes in response to salinity stress|
O Cotsaftis, D Plett, AAT Johnson, H Walia, C Wilson, AM Ismail, TJ Close, ...
Molecular Plant 4 (1), 25-41, 2011
|Energy costs of salt tolerance in crop plants|
R Munns, DA Day, W Fricke, M Watt, B Arsova, BJ Barkla, J Bose, CS Byrt, ...
New Phytologist 225 (3), 1072-1090, 2020
|Energy costs of salinity tolerance in crop plants|
SD Tyerman, R Munns, W Fricke, B Arsova, BJ Barkla, J Bose, H Bramley, ...
New Phytologist 221 (1), 25-29, 2019
|The response of the maize nitrate transport system to nitrogen demand and supply across the lifecycle|
T Garnett, V Conn, D Plett, S Conn, J Zanghellini, N Mackenzie, A Enju, ...
New Phytologist 198 (1), 82-94, 2013
|AVP1: one protein, many roles|
RK Schilling, M Tester, P Marschner, DC Plett, SJ Roy
Trends in Plant Science 22 (2), 154-162, 2017
|Genetic approaches to enhancing nitrogen-use efficiency (NUE) in cereals: challenges and future directions|
T Garnett, D Plett, S Heuer, M Okamoto
Functional Plant Biology 42 (10), 921-941, 2015
|Expressing AtNHX1 in barley (Hordium vulgare L.) does not improve plant performance under saline conditions|
GD Adem, SJ Roy, DC Plett, M Zhou, JP Bowman, S Shabala
Plant growth regulation 77 (3), 289-297, 2015
|Variation for N uptake system in maize: genotypic response to N supply|
T Garnett, D Plett, V Conn, S Conn, H Rabie, JA Rafalski, K Dhugga, ...
Frontiers in plant science 6, 936, 2015
|Structural variations in wheat HKT1;5 underpin differences in Na+ transport capacity|
B Xu, S Waters, CS Byrt, D Plett, SD Tyerman, M Tester, R Munns, ...
Cellular and Molecular Life Sciences 75 (6), 1133-1144, 2018
|Nitrate uptake and its regulation in relation to improving nitrogen use efficiency in cereals|
DC Plett, LR Holtham, M Okamoto, TP Garnett
Seminars in Cell & Developmental Biology 74, 97-104, 2018
|Nitrogen assimilation system in maize is regulated by developmental and tissue-specific mechanisms|
D Plett, L Holtham, U Baumann, E Kalashyan, K Francis, A Enju, J Toubia, ...
Plant molecular biology 92 (3), 293-312, 2016
|Integrated genomics, physiology and breeding approaches for improving nitrogen use efficiency in potato: translating knowledge from other crops|
JK Tiwari, D Plett, T Garnett, SK Chakrabarti, RK Singh
Functional Plant Biology 45 (6), 587-605, 2018
|Small amounts of ammonium (NH _4^+) can increase growth of maize (Zea mays)|
J George, L Holtham, K Sabermanesh, S Heuer, M Tester, D Plett, ...
Journal of Plant Nutrition and Soil Science 179 (6), 717-725, 2016