Lana Shabala
Lana Shabala
Research Fellow, University of Tasmania
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Extracellular Ca2+ Ameliorates NaCl-Induced K+ Loss from Arabidopsis Root and Leaf Cells by Controlling Plasma Membrane K+-Permeable Channels
S Shabala, V Demidchik, L Shabala, TA Cuin, SJ Smith, AJ Miller, ...
Plant physiology 141 (4), 1653-1665, 2006
Salinity-induced ion flux patterns from the excised roots of Arabidopsis sos mutants
L Shabala, TA Cuin, IA Newman, S Shabala
Planta 222, 1041-1050, 2005
Salinity effect on bioelectric activity, growth, Na+ accumulation and chlorophyll fluorescence of maize leaves: a comparative survey and prospects for screening
SN Shabala, SI Shabala, AI Martynenko, O Babourina, IA Newman
Functional Plant Biology 25 (5), 609-616, 1998
Effect of calcium on root development and root ion fluxes in salinised barley seedlings
S Shabala, L Shabala, E Van Volkenburgh
Functional plant biology 30 (5), 507-514, 2003
Oxidative stress protection and stomatal patterning as components of salinity tolerance mechanism in quinoa (Chenopodium quinoa)
L Shabala, A Mackay, Y Tian, SE Jacobsen, D Zhou, S Shabala
Physiologia Plantarum 146 (1), 26-38, 2012
Xylem ionic relations and salinity tolerance in barley
S Shabala, S Shabala, TA Cuin, J Pang, W Percey, Z Chen, S Conn, ...
The Plant Journal 61 (5), 839-853, 2010
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
Salinity-induced calcium signaling and root adaptation in Arabidopsis require the calcium regulatory protein annexin1
A Laohavisit, SL Richards, L Shabala, C Chen, RDDR Colašo, ...
Plant physiology 163 (1), 253-262, 2013
The Venus flytrap Dionaea muscipula counts prey-induced action potentials to induce sodium uptake
J B÷hm, S Scherzer, E Krol, I Kreuzer, K Von Meyer, C Lorey, TD Mueller, ...
Current Biology 26 (3), 286-295, 2016
Cell-Type-Specific H+-ATPase Activity in Root Tissues Enables K+ Retention and Mediates Acclimation of Barley (Hordeum vulgare) to Salinity Stress
L Shabala, J Zhang, I Pottosin, J Bose, M Zhu, AT Fuglsang, ...
Plant Physiology 172 (4), 2445-2458, 2016
Ion transport and osmotic adjustment in Escherichia coli in response to ionic and non‐ionic osmotica
L Shabala, J Bowman, J Brown, T Ross, T McMeekin, S Shabala
Environmental microbiology 11 (1), 137-148, 2009
Cell surface and intracellular auxin signalling for H+ fluxes in root growth
L Li, I Verstraeten, M Roosjen, K Takahashi, L Rodriguez, J Merrin, ...
Nature 599 (7884), 273-277, 2021
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
Membrane transporters mediating root signalling and adaptive responses to oxygen deprivation and soil flooding
S Shabala, L Shabala, J Barcelo, C Poschenrieder
Plant, Cell & Environment 37 (10), 2216-2233, 2014
Ion transport and osmotic adjustment in plants and bacteria
S Shabala, L Shabala
Walter de Gruyter 2 (5), 407-419, 2011
Transcriptional stimulation of rate-limiting components of the autophagic pathway improves plant fitness
EA Minina, PN Moschou, RR Vetukuri, V Sanchez-Vera, C Cardoso, Q Liu, ...
Journal of experimental botany 69 (6), 1415-1432, 2018
Non-invasive microelectrode ion flux measurements to study adaptive responses of microorganisms to the environment
L Shabala, T Ross, T McMeekin, S Shabala
FEMS Microbiology Reviews 30 (3), 472-486, 2006
Annexin 1 regulates the H2O2‐induced calcium signature in Arabidopsis thaliana roots
SL Richards, A Laohavisit, JC Mortimer, L Shabala, SM Swarbreck, ...
The Plant Journal 77 (1), 136-145, 2014
Kinetics of xylem loading, membrane potential maintenance, and sensitivity of K+‐permeable channels to reactive oxygen species: physiological traits thatá…
J Bose, L Shabala, I Pottosin, F Zeng, ANAM VELARDE‐BUEND═A, ...
Plant, Cell & Environment 37 (3), 589-600, 2014
Cyclopropane fatty acids improve Escherichia coli survival in acidified minimal media by reducing membrane permeability to H+ and enhanced ability to extrude H+
L Shabala, T Ross
Research in microbiology 159 (6), 458-461, 2008
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