Iron transport and its regulation in plants
T Kobayashi, T Nozoye, NK Nishizawa - Free Radical Biology and …, 2019 - Elsevier
Iron is an essential element for plants as well as other organisms, functioning in various
cellular processes, including respiration, chlorophyll biosynthesis, and photosynthesis …
cellular processes, including respiration, chlorophyll biosynthesis, and photosynthesis …
The adaptive mechanism of plants to iron deficiency via iron uptake, transport, and homeostasis
X Zhang, D Zhang, W Sun, T Wang - International journal of molecular …, 2019 - mdpi.com
Iron is an essential element for plant growth and development. While abundant in soil, the
available Fe in soil is limited. In this regard, plants have evolved a series of mechanisms for …
available Fe in soil is limited. In this regard, plants have evolved a series of mechanisms for …
The iron deficiency response in Arabidopsis thaliana requires the phosphorylated transcription factor URI
Iron is an essential nutrient for plants, but excess iron is toxic due to its catalytic role in the
formation of hydroxyl radicals. Thus, iron uptake is highly regulated and induced only under …
formation of hydroxyl radicals. Thus, iron uptake is highly regulated and induced only under …
[HTML][HTML] Genetic biofortification to enrich rice and wheat grain iron: from genes to product
Y Ludwig, IH Slamet-Loedin - Frontiers in Plant Science, 2019 - frontiersin.org
The micronutrient iron (Fe) is not only essential for plant survival and proliferation but also
crucial for healthy human growth and development. Rice and wheat are the two leading …
crucial for healthy human growth and development. Rice and wheat are the two leading …
The Combined Strategy for iron uptake is not exclusive to domesticated rice (Oryza sativa)
A Wairich, BHN de Oliveira, EB Arend, GL Duarte… - Scientific reports, 2019 - nature.com
Iron (Fe) is an essential micronutrient that is frequently inaccessible to plants. Rice (Oryza
sativa L.) plants employ the Combined Strategy for Fe uptake, which is composed by all …
sativa L.) plants employ the Combined Strategy for Fe uptake, which is composed by all …
Transcriptional integration of the responses to iron availability in Arabidopsis by the bHLH factor ILR3
Iron (Fe) homeostasis is crucial for all living organisms. In mammals, an integrated
posttranscriptional mechanism couples the regulation of both Fe deficiency and Fe excess …
posttranscriptional mechanism couples the regulation of both Fe deficiency and Fe excess …
Iron acquisition strategies in land plants: not so different after all
Due to its ability to accept and donate electrons, iron (Fe) is an indispensable component of
electron transport chains and a cofactor in many vital enzymes. Except for waterlogged …
electron transport chains and a cofactor in many vital enzymes. Except for waterlogged …
[PDF][PDF] CIPK11-dependent phosphorylation modulates FIT activity to promote Arabidopsis iron acquisition in response to calcium signaling
Nutrient acquisition is entangled with growth and stress in sessile organisms. The bHLH
transcription factor FIT is a key regulator of Arabidopsis iron (Fe) acquisition and post …
transcription factor FIT is a key regulator of Arabidopsis iron (Fe) acquisition and post …
[HTML][HTML] Iron cycling and isotope fractionation in terrestrial ecosystems
The cycling of iron (Fe) is often closely linked with that of carbon, nitrogen, phosphorus and
manganese. Therefore, alterations in the Fe cycle may be indicative of concurrent overall …
manganese. Therefore, alterations in the Fe cycle may be indicative of concurrent overall …
A review of plant vacuoles: formation, located proteins, and functions
X Tan, K Li, Z Wang, K Zhu, X Tan, J Cao - Plants, 2019 - mdpi.com
Vacuoles, cellular membrane-bound organelles, are the largest compartments of cells,
occupying up to 90% of the volume of plant cells. Vacuoles are formed by the biosynthetic …
occupying up to 90% of the volume of plant cells. Vacuoles are formed by the biosynthetic …