[HTML][HTML] Manganese in plants: from acquisition to subcellular allocation
S Alejandro, S Höller, B Meier, E Peiter - Frontiers in plant science, 2020 - frontiersin.org
Manganese (Mn) is an important micronutrient for plant growth and development and
sustains metabolic roles within different plant cell compartments. The metal is an essential …
sustains metabolic roles within different plant cell compartments. The metal is an essential …
Role of iron in plant growth and metabolism
Iron is an essential micronutrient for almost all living organisms because of it plays critical
role in metabolic processes such as DNA synthesis, respiration, and photosynthesis …
role in metabolic processes such as DNA synthesis, respiration, and photosynthesis …
Leaf manganese accumulation and phosphorus-acquisition efficiency
Plants that deploy a phosphorus (P)-mobilising strategy based on the release of
carboxylates tend to have high leaf manganese concentrations ([Mn]). This occurs because …
carboxylates tend to have high leaf manganese concentrations ([Mn]). This occurs because …
Iron uptake and transport in plants: the good, the bad, and the ionome
J Morrissey, ML Guerinot - Chemical reviews, 2009 - ACS Publications
Fe is essential for plant growth. At the same time, Fe is highly reactive and toxic via the
Fenton reaction. Consequently, plants tightly control Fe homeostasis and react to Fe …
Fenton reaction. Consequently, plants tightly control Fe homeostasis and react to Fe …
Rice plants take up iron as an Fe3+‐phytosiderophore and as Fe2+
Y Ishimaru, M Suzuki, T Tsukamoto, K Suzuki… - The Plant …, 2006 - Wiley Online Library
Only graminaceous monocots possess the Strategy II iron (Fe)‐uptake system in which Fe is
absorbed by roots as an Fe3+‐phytosiderophore. In spite of being a Strategy II plant …
absorbed by roots as an Fe3+‐phytosiderophore. In spite of being a Strategy II plant …
Dissecting iron deficiency‐induced proton extrusion in Arabidopsis roots
S Santi, W Schmidt - New Phytologist, 2009 - Wiley Online Library
Here, we have analysed the H+‐ATPase‐mediated extrusion of protons across the plasma
membrane (PM) of rhizodermic cells, a process that is inducible by iron (Fe) deficiency and …
membrane (PM) of rhizodermic cells, a process that is inducible by iron (Fe) deficiency and …
[HTML][HTML] Agronomic biofortification of food crops: An emerging opportunity for global food and nutritional security
Fortification of food with mineral micronutrients and micronutrient supplementation occupied
the center stage during the two-year-long Corona Pandemic, highlighting the urgent need to …
the center stage during the two-year-long Corona Pandemic, highlighting the urgent need to …
Transition metal transporters in plants
JL Hall, LE Williams - Journal of experimental botany, 2003 - academic.oup.com
Transition metals such as Fe, Cu, Mn, and Zn are essential minerals for normal plant growth
and development, although they can be toxic when present in excess. Thus, for healthy plant …
and development, although they can be toxic when present in excess. Thus, for healthy plant …
Expression of the IRT1 metal transporter is controlled by metals at the levels of transcript and protein accumulation
EL Connolly, JP Fett, ML Guerinot - The Plant Cell, 2002 - academic.oup.com
Iron, an essential nutrient, is not readily available to plants because of its low solubility. In
addition, iron is toxic in excess, catalyzing the formation of hydroxyl radicals that can …
addition, iron is toxic in excess, catalyzing the formation of hydroxyl radicals that can …
Iron uptake, trafficking and homeostasis in plants
R Hell, UW Stephan - Planta, 2003 - Springer
Iron is an essential micronutrient with numerous cellular functions, and its deficiency
represents one of the most serious problems in human nutrition worldwide. Plants have two …
represents one of the most serious problems in human nutrition worldwide. Plants have two …