Response of Arabidopsis to iron deficiency stress as revealed by microarray analysis O Thimm, B Essigmann, S Kloska, T Altmann, TJ Buckhout Plant Physiology 127 (3), 1030-1043, 2001 | 293 | 2001 |
Two iron-regulated cation transporters from tomato complement metal uptake-deficient yeast mutants U Eckhardt, A Mas Marques, TJ Buckhout Plant Molecular Biology 45, 437-448, 2001 | 292 | 2001 |
Early iron-deficiency-induced transcriptional changes in Arabidopsis roots as revealed by microarray analyses TJ Buckhout, TJW Yang, W Schmidt BMC genomics 10, 1-16, 2009 | 179 | 2009 |
Iron-Stress Induced Redox Activity in Tomato (Lycopersicum esculentum Mill.) Is Localized on the Plasma Membrane TJ Buckhout, PF Bell, DG Luster, RL Chaney Plant Physiology 90 (1), 151-156, 1989 | 178 | 1989 |
Fe3+-Chelate Reductase Activity of Plasma Membranes Isolated from Tomato (Lycopersicon esculentum Mill.) Roots Comparison of Enzymes from Fe-Deficient … MJ Holden, DG Luster, RL Chaney, TJ Buckhout, C Robinson Plant Physiology 97 (2), 537-544, 1991 | 155 | 1991 |
Coexpression-based clustering of Arabidopsis root genes predicts functional modules in early phosphate deficiency signaling WD Lin, YY Liao, TJW Yang, CY Pan, TJ Buckhout, W Schmidt Plant physiology 155 (3), 1383-1402, 2011 | 147 | 2011 |
The Involvement of a Multicopper Oxidase in Iron Uptake by the Green Algae Chlamydomonas reinhardtii A Herbik, C Bölling, TJ Buckhout Plant physiology 130 (4), 2039-2048, 2002 | 142 | 2002 |
The transcriptional response of Arabidopsis leaves to Fe deficiency J Rodríguez-Celma, IC Pan, W Li, P Lan, TJ Buckhout, W Schmidt Frontiers in plant science 4, 276, 2013 | 130 | 2013 |
Iron nutrition and interactions in plants W Schmidt, S Thomine, TJ Buckhout Frontiers in plant science 10, 511300, 2020 | 113 | 2020 |
Vacuolar-iron-transporter1-like proteins mediate iron homeostasis in Arabidopsis J Gollhofer, R Timofeev, P Lan, W Schmidt, TJ Buckhout PLoS One 9 (10), e110468, 2014 | 108 | 2014 |
Identification of a calmodulin‐stimulated (Ca2++ Mg2+)‐ATPase in a plasma membrane fraction isolated from maize (Zea mays) leaves C Robinson, C Larsson, TJ Buckhout Physiologia plantarum 72 (1), 177-184, 1988 | 101 | 1988 |
Surcose transport in isolated plasma-membrane vesicles from sugar beet (Beta vulgaris L.) Evidence for an electrogenic sucrose-proton symport TJ Buckhout Planta 178, 393-399, 1989 | 93 | 1989 |
Characterization of Ca2+ Transport in Purified Endoplasmic Reticulum Membrane Vesicles from Lepidium sativum L. Roots TJ Buckhout Plant physiology 76 (4), 962-967, 1984 | 90 | 1984 |
Characterization and partial purification of multiple electron transport activities in plasma membranes from maize (Zea mays) roots DG Luster, TJ Buckhout Physiologia plantarum 73 (3), 339-347, 1988 | 87 | 1988 |
Iron assimilation in Chlamydomonas reinhardtii involves ferric reduction and is similar to Strategy I higher plants U Eckhardt, TJ Buckhout Journal of Experimental Botany 49 (324), 1219-1226, 1998 | 84 | 1998 |
Purification and Identification of a Plasma Membrane Associated Electron Transport Protein from Maize (Zea mays L.) Roots DG Luster, TJ Buckhout Plant physiology 91 (3), 1014-1019, 1989 | 82 | 1989 |
ATP-dependent CA2+ transport in endoplasmic reticulum isolated from roots ofLepidium sativum L. TJ Buckhout Planta 159 (1), 84-90, 1983 | 80 | 1983 |
Can a Ca2+ pump in the endoplasmic reticulum of the Lepidium root be the trigger for rapid changes in membrane potential after gravistimulation? A Sievers, HM Behrens, TJ Buckhout, D Gradmann Zeitschrift für Pflanzenphysiologie 114 (3), 195-200, 1984 | 66 | 1984 |
Members of a small family of nodulin-like genes are regulated under iron deficiency in roots of Arabidopsis thaliana J Gollhofer, C Schläwicke, N Jungnick, W Schmidt, TJ Buckhout Plant physiology and biochemistry 49 (5), 557-564, 2011 | 56 | 2011 |
A hitchhiker’s guide to the Arabidopsis ferrome W Schmidt, TJ Buckhout Plant Physiology and Biochemistry 49 (5), 462-470, 2011 | 53 | 2011 |