Honghong Wu
Cited by
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Nanobiotechnology approaches for engineering smart plant sensors
Giraldo* JP, H Wu, Newkirk GM, Kruss S
Nature Nanotechnology 14 (6), 541-553, 2019
Nanobiotechnology in Agriculture: Use of Nanomaterials To Promote Plant Growth and Stress Tolerance
L Zhao*, L Lu, A Wang, H Zhang, M Huang, H Wu*, B Xing, Z Wang, R Ji
Journal of Agricultural and Food Chemistry 68 (7), 1935-1947, 2020
Anionic Cerium Oxide Nanoparticles Protect Plant Photosynthesis from Abiotic Stress by Scavenging Reactive Oxygen Species
H Wu, N Tito, JP Giraldo*
ACS Nano 11 (11), 11283-11297, 2017
It is not all about sodium: revealing tissue specificity and signalling roles of potassium in plant responses to salt stress
H Wu#*, X Zhang#, JP Giraldo, S Shabala*
Plant and Soil 431, 1-17, 2018
Plant salt tolerance and Na+ sensing and transport
H Wu*
The Crop Journal 6 (3), 215-225, 2018
Salt stress sensing and early signalling events in plant roots: current knowledge and hypothesis
S Shabala*, H Wu, J Bose
Plant Science 241 (12), 109-119, 2015
Nanoparticle Charge and Size Control Foliar Delivery Efficiency to Plant Cells and Organelles
P Hu, J An, MM Faulkner, H Wu, Z Li, X Tian, JP Giraldo
ACS nano 14 (7), 7970-7986, 2020
Hydroxyl radical scavenging by cerium oxide nanoparticles improves Arabidopsis salinity tolerance by enhancing leaf mesophyll potassium retention
H Wu, L Shabala, S Shabala, JP Giraldo*
Environmental Science: Nano 5 (7), 1567-1583, 2018
Cell-type specific H+-ATPase activity enables root K+ retention and mediates acclimation to salinity
Shabala L, Zhang J, Pottosin I, Bose J, Zhu M, Fuglsang AT, Velarde-Buendia ...
Plant Physiology 172 (4), 2445-2458, 2016
K+ retention in leaf mesophyll, an overlooked component of salinity tolerance mechanism: a case study for barley
H Wu, M Zhu, L Shabala, M Zhou, S Shabala*
Journal of integrative plant biology 57 (2), 171-185, 2015
Monitoring Plant Health with Near Infrared Fluorescent H2O2 Nanosensors
H Wu#, R Ni▀ler#, V Morris, N Herrmann, P Hu, SJ Jeon, S Kruss*, ...
Nano Letters 20 (4), 2432-2442, 2020
Linking salinity stress tolerance with tissue-specific Na+ sequestration in wheat roots
Honghong Wu, Lana shabala, Xiaohui Liu, Elisa Azzarello, Camilla Pandolfi ...
Frontiers in Plant Science 6, 71, 1-13, 2015
Ability of leaf mesophyll to retain potassium correlates with salinity tolerance in wheat and barley
H Wu, L Shabala, K Barry, M Zhou, S Shabala*
Physiologia plantarum 149 (4), 515-527, 2013
Emerging Investigator Series: Molecular mechanisms of plant salinity stress tolerance improvement by seed priming with cerium oxide nanoparticles
J An, P Hu, F Li, H Wu, Y Shen, J White, X Tian, Z Li, JP Giraldo
Environmental Science: Nano, 2020
Targeted delivery of nanomaterials with chemical cargoes in plants enabled by a biorecognition motif
I Santana, H Wu, P Hu, JP Giraldo
Nature Communications 11, 2045, 2020
Haem oxygenase-1 is involved in salicylic acid-induced alleviation of oxidative stress due to cadmium stress in Medicago sativa
W Cui, L Li, Z Gao, H Wu, Y Xie, W Shen*
Journal of experimental botany 63 (15), 5521-5534, 2012
Endogenous hydrogen peroxide plays a positive role in the upregulation of heme oxygenase and acclimation to oxidative stress in wheat seedling leaves
XY Chen, X Ding, S Xu, R Wang, W Xuan, ZY Cao, J Chen, HH Wu, ...
Journal of Integrative Plant Biology 51 (10), 951-960, 2009
Root vacuolar Na+ sequestration but not exclusion from uptake correlates with barley salt tolerance
H Wu*, L Shabala, M Zhou, N Su, Q Wu, T Ul‐Haq, J Zhu, S Mancuso, ...
The Plant Journal 100 (1), 55-67, 2019
Na+ extrusion from the cytosol and tissue-specific Na+ sequestration in roots confer differential salt stress tolerance between durum and bread wheat
H Wu, L Shabala, E Azzarello, Y Huang, C Pandolfi, N Su, Q Wu, S Cai, ...
Journal of Experimental Botany 69 (16), 3987–4001, 2018
Cadmium-induced heme oxygenase-1 gene expression is associated with the depletion of glutathione in the roots of Medicago sativa
W Cui, G Fu, H Wu, W Shen*
Biometals 24 (1), 93-103, 2011
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