Hormonal regulation of root hair growth and responses to the environment in Arabidopsis
K Vissenberg, N Claeijs, D Balcerowicz… - Journal of …, 2020 - academic.oup.com
The main functions of plant roots are water and nutrient uptake, soil anchorage, and
interaction with soil-living biota. Root hairs, single cell tubular extensions of root epidermal …
interaction with soil-living biota. Root hairs, single cell tubular extensions of root epidermal …
[HTML][HTML] Regulation of iron homeostasis and use in chloroplasts
GE Kroh, M Pilon - International Journal of Molecular Sciences, 2020 - mdpi.com
Iron (Fe) is essential for life because of its role in protein cofactors. Photosynthesis, in
particular photosynthetic electron transport, has a very high demand for Fe cofactors. Fe is …
particular photosynthetic electron transport, has a very high demand for Fe cofactors. Fe is …
FIT, a regulatory hub for iron deficiency and stress signaling in roots, and FIT-dependent and-independent gene signatures
B Schwarz, P Bauer - Journal of Experimental Botany, 2020 - academic.oup.com
Iron (Fe) is vital for plant growth. Plants balance the beneficial and toxic effects of this
micronutrient, and tightly control Fe uptake and allocation. Here, we review the role of the …
micronutrient, and tightly control Fe uptake and allocation. Here, we review the role of the …
[HTML][HTML] Iron homeostasis and plant immune responses: recent insights and translational implications
JH Herlihy, TA Long, JM McDowell - Journal of Biological Chemistry, 2020 - ASBMB
Iron metabolism and the plant immune system are both critical for plant vigor in natural
ecosystems and for reliable agricultural productivity. Mechanistic studies of plant iron home …
ecosystems and for reliable agricultural productivity. Mechanistic studies of plant iron home …
[HTML][HTML] bHLH121 functions as a direct link that facilitates the activation of FIT by bHLH IVc transcription factors for maintaining Fe homeostasis in Arabidopsis
R Lei, Y Li, Y Cai, C Li, M Pu, C Lu, Y Yang, G Liang - Molecular plant, 2020 - cell.com
Iron (Fe) deficiency is prevalent in plants grown in neutral or alkaline soil. Plants have
evolved sophisticated mechanisms that regulate Fe homeostasis, ensuring survival. In …
evolved sophisticated mechanisms that regulate Fe homeostasis, ensuring survival. In …
The bHLH protein OsIRO3 is critical for plant survival and iron (Fe) homeostasis in rice (Oryza sativa L.) under Fe-deficient conditions
F Wang, RN Itai, T Nozoye, T Kobayashi… - Soil Science and …, 2020 - Taylor & Francis
Iron (Fe) is an essential element for most organisms since it is involved in various biological
reactions. Fe deficiency is a major constraint for plant growth and leads to low crop yields …
reactions. Fe deficiency is a major constraint for plant growth and leads to low crop yields …
[HTML][HTML] OsIRO3 plays an essential role in iron deficiency responses and regulates iron homeostasis in rice
W Wang, J Ye, Y Ma, T Wang, H Shou, L Zheng - Plants, 2020 - mdpi.com
Iron (Fe) homeostasis is essential for plant growth and development, and it is strictly
regulated by a group of transcriptional factors. Iron-related transcription factor 3 (OsIRO3) …
regulated by a group of transcriptional factors. Iron-related transcription factor 3 (OsIRO3) …
[HTML][HTML] pH-dependent transcriptional profile changes in iron-deficient Arabidopsis roots
Background Iron is an essential element for plants and abundantly present in most mineral
soils. The mobility of iron is, however, dependent on the redox potential and hydrogen …
soils. The mobility of iron is, however, dependent on the redox potential and hydrogen …
Further insights into the role of bHLH121 in the regulation of iron homeostasis in Arabidopsis thaliana
Iron (Fe) is an important micronutrient for plant growth and development but any excess of
Fe is toxic because of the Fe-dependent generation of reactive oxygen species (ROS). Thus …
Fe is toxic because of the Fe-dependent generation of reactive oxygen species (ROS). Thus …
SINAT E3 ligases regulate the stability of the ESCRT component FREE1 in response to iron deficiency in plants
Z Xiao, C Yang, C Liu, L Yang, S Yang… - Journal of Integrative …, 2020 - Wiley Online Library
The endosomal sorting complex required for transport (ESCRT) machinery is an ancient,
evolutionarily conserved membrane remodeling complex that is essential for multivesicular …
evolutionarily conserved membrane remodeling complex that is essential for multivesicular …