Root enzymes are in control. (iron deficiency in plants)Konstant, Dvora Aksler
For instance, in humans, Fe-mediated ROS is linked with many diseases1, but also required to kill cancer stem cells through the ferroptosis (a specific type of cell death)17,18. In plants, Fe accumulation leads to primary root growth arrest induced by phosphorus deficiency and is associated ...
Iron deficiency in plants: an update on homeostasis and its regulation by nitric oxide and phytohormones Abstract Iron is an essential micronutrient for plants as it involves in several important physiological processes. Understanding iron homeostasis in plants is pivotal, not only for improving their g...
Iron Deficiency in Citrus Plants and its ControlSingh, M. Pradyumna
Plants adapt the iron acquisition in their roots to their current requirements. Iron deficiency triggers calcium signals. This information is passed on, activating the effector protein FIT. Credit: HHU / Tzvetina Brumbarova Iron is an essential nutrient for plants, animals and also for humans. ...
Physiological and biochemical changes in young maize plants under iron deficiency: Ⅰ. Growth and photosynthesis[J]. Journal of Plant Nutrition, 1993, 16(5): 835-849Nenova V, Stoyano I (1995) Physiological and biochemical changes in young maize plants under iron deficiency: 2. Catalase, ...
Very few information is available about the changes of nitrogen metabolism occurring under Fe deficiency in Strategy I plants. The aim of this work was to study how cucumber (Cucumis sativus L.) plants modify their nitrogen metabolism when grown under iron deficiency. Results The activity of ...
Iron deficiency in higher plants causes accumulation of salts of organic acids in the roots, the most characteristic being citrate. We show that citrate and malate accumulate in beans (Phaseolus vulgaris L. var Prélude), not because of a lack of the iron-containing enzyme aconitase (EC 4.2.1....
Iron homeostasis in plants—a brief overview. Metallomics 9, 813–823 (2017). Article CAS PubMed Google Scholar Santi, S. & Schmidt, W. Dissecting iron deficiency-induced proton extrusion in Arabidopsis roots. N. Phytol. 183, 1072–1084 (2009). Article CAS Google Scholar Robinson, N. ...
M'sehli W., Houmani H., Donnini S., Zocchi G., Abdelly C., Gharsally M. (2014) Iron deficiency tolerance at leaf level in Medicago ciliaris plants. American Journal of Plant Sciences, 5, 2541-2553.M'sehli, W., Houmani, H., Donnini, S., Zocchi, G., Abdelly, C., Gharsalli...