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 …
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 …
Iron oxide nanoparticles alleviate arsenic phytotoxicity in rice by improving iron uptake, oxidative stress tolerance and diminishing arsenic accumulation
H Bidi, H Fallah, Y Niknejad, DB Tari - Plant physiology and biochemistry, 2021 - Elsevier
The food chain contaminated with arsenic (As) has developed a hazardous threat to the
growth and development of plants, animals and humans. The present study was conducted …
growth and development of plants, animals and humans. The present study was conducted …
Iron uptake, translocation, and regulation in higher plants
T Kobayashi, NK Nishizawa - Annual review of plant biology, 2012 - annualreviews.org
Iron is essential for the survival and proliferation of all plants. Higher plants have developed
two distinct strategies to acquire iron, which is only slightly soluble, from the rhizosphere: the …
two distinct strategies to acquire iron, which is only slightly soluble, from the rhizosphere: the …
[图书][B] Handbook of plant nutrition
AV Barker, DJ Pilbeam - 2015 - books.google.com
This new edition provides current information on the nutritional requirements of world crops.
It presents research on the acquisition, accumulation, transport, and functions of chemical …
It presents research on the acquisition, accumulation, transport, and functions of chemical …
The significance of amino acids and amino acid-derived molecules in plant responses and adaptation to heavy metal stress
SS Sharma, KJ Dietz - Journal of experimental botany, 2006 - academic.oup.com
Plants exposed to heavy metals accumulate an array of metabolites, some to high millimolar
concentrations. This review deals with N-containing metabolites frequently preferentially …
concentrations. This review deals with N-containing metabolites frequently preferentially …
Metal movement within the plant: contribution of nicotianamine and yellow stripe 1-like transporters
Background Since the identification of the genes controlling the root acquisition of iron (Fe),
the control of inter-and intracellular distribution has become an important challenge in …
the control of inter-and intracellular distribution has become an important challenge in …
[HTML][HTML] Tolerance of iron-deficient and-toxic soil conditions in rice
Iron (Fe) deficiency and toxicity are the most widely prevalent soil-related micronutrient
disorders in rice (Oryza sativa L.). Progress in rice cultivars with improved tolerance has …
disorders in rice (Oryza sativa L.). Progress in rice cultivars with improved tolerance has …
Towards establishing broad-spectrum disease resistance in plants: silicon leads the way
J Van Bockhaven… - … of experimental botany, 2013 - academic.oup.com
Plants are constantly threatened by a wide array of microbial pathogens. Pathogen invasion
can lead to vast yield losses and the demand for sustainable plant-protection strategies has …
can lead to vast yield losses and the demand for sustainable plant-protection strategies has …
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 …