Dev Britto
Dev Britto
Research Associate, University of Toronto
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Cited by
Cited by
NH4+ toxicity in higher plants: a critical review
DT Britto, HJ Kronzucker
Journal of plant physiology 159 (6), 567-584, 2002
Futile transmembrane NH4+ cycling: A cellular hypothesis to explain ammonium toxicity in plants
DT Britto, MY Siddiqi, ADM Glass, HJ Kronzucker
Proceedings of the National Academy of Sciences 98 (7), 4255-4258, 2001
The regulation of nitrate and ammonium transport systems in plants
ADM Glass, DT Britto, BN Kaiser, JR Kinghorn, HJ Kronzucker, A Kumar, ...
Journal of Experimental Botany 53 (370), 855-864, 2002
Sodium transport in plants: a critical review
HJ Kronzucker, DT Britto
New Phytologist 189 (1), 54-81, 2011
Nitrogen transformations in modern agriculture and the role of biological nitrification inhibition
D Coskun, DT Britto, W Shi, HJ Kronzucker
Nature Plants 3 (6), 1-10, 2017
How plant root exudates shape the nitrogen cycle
D Coskun, DT Britto, W Shi, HJ Kronzucker
Trends in Plant Science 22 (8), 661-673, 2017
Sodium as nutrient and toxicant
HJ Kronzucker, D Coskun, LM Schulze, JR Wong, DT Britto
Plant and soil 369, 1-23, 2013
The role of silicon in higher plants under salinity and drought stress
D Coskun, DT Britto, WQ Huynh, HJ Kronzucker
Frontiers in plant science 7, 210358, 2016
K+ transport in plants: Physiology and molecular biology
MW Szczerba, DT Britto, HJ Kronzucker
Journal of plant physiology 166 (5), 447-466, 2009
Cellular mechanisms of potassium transport in plants
DT Britto, HJ Kronzucker
Physiologia plantarum 133 (4), 637-650, 2008
Ecological significance and complexity of N-source preference in plants
DT Britto, HJ Kronzucker
Annals of botany 112 (6), 957-963, 2013
Ammonium toxicity and the real cost of transport
HJ Kronzucker, DT Britto, RJ Davenport, M Tester
Trends in plant science 6 (8), 335-337, 2001
Futile cycling at the plasma membrane: a hallmark of low-affinity nutrient transport
DT Britto, HJ Kronzucker
Trends in plant science 11 (11), 529-534, 2006
Optimization of ammonium acquisition and metabolism by potassium in rice (Oryza sativa L. cv. IR‐72)
KD Balkos, DT Britto, HJ Kronzucker
Plant, cell & environment 33 (1), 23-34, 2010
Nitrogen acquisition, PEP carboxylase, and cellular pH homeostasis: new views on old paradigms
DT Britto, HJ Kronzucker
Plant, Cell & Environment 28 (11), 1396-1409, 2005
The nitrogen–potassium intersection: membranes, metabolism, and mechanism
D Coskun, DT Britto, HJ Kronzucker
Plant, cell & environment 40 (10), 2029-2041, 2017
Rapid Ammonia Gas Transport Accounts for Futile Transmembrane Cycling under NH3/NH4  + Toxicity in Plant Roots
D Coskun, DT Britto, M Li, A Becker, HJ Kronzucker
Plant physiology 163 (4), 1859-1867, 2013
NH4+-stimulated and -inhibited components of K+ transport in rice (Oryza sativa L.)
MW Szczerba, DT Britto, SA Ali, KD Balkos, HJ Kronzucker
Journal of Experimental Botany 59 (12), 3415-3423, 2008
Alleviation of rapid, futile ammonium cycling at the plasma membrane by potassium reveals K+-sensitive and -insensitive components of NH4+ transport
MW Szczerba, DT Britto, KD Balkos, HJ Kronzucker
Journal of Experimental Botany 59 (2), 303-313, 2008
Root ammonium transport efficiency as a determinant in forest colonization patterns: an hypothesis
HJ Kronzucker, MY Siddiqi, ADM Glass, DT Britto
Physiologia Plantarum 117 (2), 164-170, 2003
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