Phosphorus and iron deficiencies induce a metabolic reprogramming and affect the exudation traits of the woody plant Fragaria×ananassa
Strawberries are a very popular fruit among berries, for both their commercial and economic
importance, but especially for their beneficial effects for human health. However, their …
importance, but especially for their beneficial effects for human health. However, their …
[HTML][HTML] Single and combined Fe and S deficiency differentially modulate root exudate composition in tomato: A double strategy for Fe acquisition?
Fe chlorosis is considered as one of the major constraints on crop growth and yield
worldwide, being particularly worse when associated with S shortage, due to the tight link …
worldwide, being particularly worse when associated with S shortage, due to the tight link …
[HTML][HTML] Phosphorus deficiency changes carbon isotope fractionation and triggers exudate reacquisition in tomato plants
Plant roots are able to exude vast amounts of metabolites into the rhizosphere in response
to phosphorus (P) deficiency. Causing noteworthy costs in terms of energy and carbon (C) …
to phosphorus (P) deficiency. Causing noteworthy costs in terms of energy and carbon (C) …
Metabolic responses in iron deficient tomato plants
AF López-Millán, F Morales, Y Gogorcena… - Journal of plant …, 2009 - Elsevier
The effects of Fe deficiency on different metabolic processes were characterized in roots,
xylem sap and leaves of tomato. The total organic acid pool increased significantly with Fe …
xylem sap and leaves of tomato. The total organic acid pool increased significantly with Fe …
[HTML][HTML] Iron deficiency affects nitrogen metabolism in cucumber (Cucumis sativusL.) plants
Background Nitrogen is a principal limiting nutrient in plant growth and development. Among
factors that may limit NO 3-assimilation, Fe potentially plays a crucial role being a metal …
factors that may limit NO 3-assimilation, Fe potentially plays a crucial role being a metal …
AtDTX25, a member of the multidrug and toxic compound extrusion family, is a vacuolar ascorbate transporter that controls intracellular iron cycling in Arabidopsis
MTT Hoang, D Almeida, S Chay, C Alcon… - New …, 2021 - Wiley Online Library
Iron (Fe) is an essential element, its transport is regulated by the cell redox balance. In
seeds, Fe enters the embryo as Fe2+ and is stored in vacuoles as Fe3+. Through its ferric …
seeds, Fe enters the embryo as Fe2+ and is stored in vacuoles as Fe3+. Through its ferric …
Metabolic response in roots of Prunus rootstocks submitted to iron chlorosis
S Jiménez, N Ollat, C Deborde, M Maucourt… - Journal of Plant …, 2011 - Elsevier
Iron deficiency induces several responses to iron shortage in plants. Metabolic changes
occur to sustain the increased iron uptake capacity of Fe-deficient plants. We evaluated the …
occur to sustain the increased iron uptake capacity of Fe-deficient plants. We evaluated the …
Development and recovery of iron deficiency by iron resupply to roots or leaves of strawberry plants
M Pestana, PJ Correia, T Saavedra, F Gama… - Plant physiology and …, 2012 - Elsevier
Bare-root transplants of strawberry (Fragaria ananassa Duch. cv.'Selva') were transferred to
nutrient solutions with or without iron (Fe). After six weeks of growth, plants grown in solution …
nutrient solutions with or without iron (Fe). After six weeks of growth, plants grown in solution …
ELS1, a novel MATE transporter related to leaf senescence and iron homeostasis in Arabidopsis thaliana
Z Wang, C Qian, X Guo, E Liu, K Mao, C Mu… - Biochemical and …, 2016 - Elsevier
The multidrug and toxic compound extrusion (MATE) transporters mediate the coupled
exchange of organic substrates and monovalent cations have been recently implicated in …
exchange of organic substrates and monovalent cations have been recently implicated in …
[HTML][HTML] Changes in physiological activities and root exudation profile of two grapevine rootstocks reveal common and specific strategies for Fe acquisition
In several cultivation areas, grapevine can suffer from Fe chlorosis due to the calcareous
and alkaline nature of soils. This plant species has been described to cope with Fe …
and alkaline nature of soils. This plant species has been described to cope with Fe …
相关搜索
- woody plant exudation traits
- woody plant fragaria × ananassa
- woody plant metabolic reprogramming
- fragaria × ananassa exudation traits
- metabolic reprogramming exudation traits
- fragaria × ananassa metabolic reprogramming
- plants in response iron deficiency
- strawberry plants iron resupply
- phosphorus deficiency tomato plants
- metabolic responses tomato plants
- metabolic response iron chlorosis
- strawberry plants iron deficiency