scholarly article | Q13442814 |
P2093 | author name string | Massimo Delledonne | |
Irene Murgia | |||
Carlo Soave | |||
P2860 | cites work | Bacterioferritins and ferritins are distantly related in evolution. Conservation of ferroxidase-centre residues | Q48200087 |
An actin-related protein from Dictyostelium discoideum is developmentally regulated and associated with mitochondria. | Q52209514 | ||
Iron homeostasis alteration in transgenic tobacco overexpressing ferritin. | Q54103338 | ||
Ancient origins of nitric oxide signaling in biological systems | Q22010906 | ||
Molecular control of vertebrate iron metabolism: mRNA-based regulatory circuits operated by iron, nitric oxide, and oxidative stress | Q24630216 | ||
ASCORBATE AND GLUTATHIONE: Keeping Active Oxygen Under Control | Q28249509 | ||
Nitric oxide sensitivity of the aconitases | Q28249920 | ||
Nitric oxide induces stomatal closure and enhances the adaptive plant responses against drought stress | Q28344226 | ||
The ferritins: molecular properties, iron storage function and cellular regulation | Q28609366 | ||
Ferritin gene organization: differences between plants and animals suggest possible kingdom-specific selective constraints | Q30423991 | ||
Iron induces ferritin synthesis in maize plantlets | Q33226842 | ||
Signal interactions between nitric oxide and reactive oxygen intermediates in the plant hypersensitive disease resistance response | Q33949486 | ||
Nitric oxide and salicylic acid signaling in plant defense | Q33988522 | ||
Iron regulatory proteins in pathobiology. | Q34086473 | ||
Nitric oxide and the regulation of gene expression | Q34134480 | ||
Regulation of plant ferritin synthesis: how and why. | Q34158983 | ||
Nitric oxide: comparative synthesis and signaling in animal and plant cells. | Q34207889 | ||
Molecular mechanisms of the protein serine/threonine phosphatases | Q34412727 | ||
Biochemistry of Nitric Oxide and Its Redox-Activated Forms | Q35159350 | ||
PLANT PROTEIN PHOSPHATASES. | Q35687244 | ||
Nitric oxide in plant immunity | Q36072364 | ||
Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose | Q36294003 | ||
Structure, genomic organization, and expression of the Arabidopsis thaliana aconitase gene. Plant aconitase show significant homology with mammalian iron-responsive element-binding protein. | Q36699896 | ||
Nitric oxide modulates the activity of tobacco aconitase | Q38314967 | ||
Structure and Differential Expression of two Maize Ferritin Genes in Response to Iron and Abscisic Acid | Q39006966 | ||
Natural resistance and nitric oxide | Q40410569 | ||
NO at work | Q40630836 | ||
Redox signaling: nitrosylation and related target interactions of nitric oxide | Q40630842 | ||
Nitrogen monoxide activates iron regulatory protein 1 RNA-binding activity by two possible mechanisms: effect on the [4Fe-4S] cluster and iron mobilization from cells | Q40895826 | ||
Effects of interferon-gamma and lipopolysaccharide on macrophage iron metabolism are mediated by nitric oxide-induced degradation of iron regulatory protein 2. | Q40897847 | ||
Control of transferrin receptor expression via nitric oxide-mediated modulation of iron-regulatory protein 2. | Q40919235 | ||
Converse modulation of IRP1 and IRP2 by immunological stimuli in murine RAW 264.7 macrophages | Q41041390 | ||
(S)NO signals: translocation, regulation, and a consensus motif | Q41496824 | ||
Amino-acid sequence and predicted three-dimensional structure of pea seed (Pisum sativum) ferritin | Q41930714 | ||
Iron release and uptake by plant ferritin: effects of pH, reduction and chelation | Q42007022 | ||
Characterization of a ferritin mRNA from Arabidopsis thaliana accumulated in response to iron through an oxidative pathway independent of abscisic acid | Q42061960 | ||
Ferritin (mRNA, protein) and iron concentrations during soybean nodule development | Q44865663 | ||
Identification and characterization of the iron regulatory element in the ferritin gene of a plant (soybean). | Q44872904 | ||
Nitric oxide functions as a signal in plant disease resistance | Q46872524 | ||
Characterization of an iron-dependent regulatory sequence involved in the transcriptional control of AtFer1 and ZmFer1 plant ferritin genes by iron | Q47811530 | ||
P433 | issue | 5 | |
P304 | page(s) | 521-528 | |
P577 | publication date | 2002-06-01 | |
P1433 | published in | The Plant Journal | Q15766987 |
P1476 | title | Nitric oxide mediates iron-induced ferritin accumulation in Arabidopsis | |
P478 | volume | 30 |
Q35022947 | 2'-Deoxymugineic acid promotes growth of rice (Oryza sativa L.) by orchestrating iron and nitrate uptake processes under high pH conditions |
Q33499614 | A new family of ferritin genes from Lupinus luteus--comparative analysis of plant ferritins, their gene structure, and evolution |
Q43214546 | Alternative expression of vacuolar iron transporter and ferritin genes leads to blue/purple coloration of flowers in tulip cv. 'Murasakizuisho'. |
Q50747106 | AtHO1 is involved in iron homeostasis in an NO-dependent manner. |
Q24563102 | Cellular and subcellular localization of endogenous nitric oxide in young and senescent pea plants |
Q64053649 | Changes in the Arabidopsis RNA-binding proteome reveal novel stress response mechanisms |
Q27006547 | Copper and iron homeostasis in plants: the challenges of oxidative stress |
Q48248417 | Differential involvement of the IDRS cis -element in the developmental and environmental regulation of the AtFer1 ferritin gene from Arabidopsis |
Q47985832 | Disruption of OsYSL15 leads to iron inefficiency in rice plants |
Q45016725 | Evidence for a direct link between glutathione biosynthesis and stress defense gene expression in Arabidopsis |
Q28756680 | Exposure to nitric oxide protects against oxidative damage but increases the labile iron pool in sorghum embryonic axes |
Q44477497 | Gene expression of the NO3- transporter NRT1.1 and the nitrate reductase NIA1 is repressed in Arabidopsis roots by NO2-, the product of NO3- reduction |
Q34562375 | Gene regulation of iron-deficiency responses is associated with carbon monoxide and heme oxydase 1 in Chlamydomonas reinhardtii |
Q45044412 | Genetic elucidation of nitric oxide signaling in incompatible plant-pathogen interactions |
Q50705874 | Glucose-6-phosphate dehydrogenase plays a pivotal role in nitric oxide-involved defense against oxidative stress under salt stress in red kidney bean roots. |
Q79463041 | Glutathione synthesis is regulated by nitric oxide in Medicago truncatula roots |
Q43198961 | Hydrogen sulphide improves adaptation of Zea mays seedlings to iron deficiency |
Q37845377 | Integrated approach to nitric oxide in animals and plants (mechanism and bioactivity): cell signaling and radicals |
Q35543759 | Iron Transport and Signaling in Plants |
Q35113440 | Iron solutions: acquisition strategies and signaling pathways in plants |
Q44739189 | Iron-regulated expression of a cytosolic ascorbate peroxidase encoded by the APX1 gene in Arabidopsis seedlings |
Q36603731 | Knocking down mitochondrial iron transporter (MIT) reprograms primary and secondary metabolism in rice plants |
Q36343062 | Mechanisms for nitric oxide synthesis in plants |
Q37098522 | Mitochondrial ferritin is a functional iron-storage protein in cucumber (Cucumis sativus) roots |
Q38139004 | Mitochondrial iron transport and homeostasis in plants |
Q37293221 | Morphological, Physiological and Proteomic Analyses Provide Insights into the Improvement of Castor Bean Productivity of a Dwarf Variety in Comparing with a High-Stalk Variety |
Q43055616 | NO contributes to cadmium toxicity in Arabidopsis thaliana by mediating an iron deprivation response |
Q33811445 | New insights into ferritin synthesis and function highlight a link between iron homeostasis and oxidative stress in plants. |
Q36454103 | Nitric Oxide Alleviated Arsenic Toxicity by Modulation of Antioxidants and Thiol Metabolism in Rice (Oryza sativa L.). |
Q33811450 | Nitric oxide and frataxin: two players contributing to maintain cellular iron homeostasis |
Q38328587 | Nitric oxide and plant iron homeostasis |
Q38098885 | Nitric oxide as a key component in hormone-regulated processes |
Q83236573 | Nitric oxide contributes to cadmium toxicity in Arabidopsis by promoting cadmium accumulation in roots and by up-regulating genes related to iron uptake |
Q36402794 | Nitric oxide signaling in plants |
Q47145229 | Overexpression of native ferritin gene MusaFer1 enhances iron content and oxidative stress tolerance in transgenic banana plants. |
Q37807537 | Peroxisomes as a cellular source of reactive nitrogen species signal molecules |
Q46895526 | Polyamines induce rapid biosynthesis of nitric oxide (NO) in Arabidopsis thaliana seedlings |
Q41843039 | Rapid accumulation of NO regulates ABA catabolism and seed dormancy during imbibition in Arabidopsis |
Q36888600 | Searching iron sensors in plants by exploring the link among 2'-OG-dependent dioxygenases, the iron deficiency response and metabolic adjustments occurring under iron deficiency |
Q55379605 | Shoot iron status and auxin are involved in iron deficiency-induced phytosiderophores release in wheat. |
Q43075892 | The iron-responsive element (IRE)/iron-regulatory protein 1 (IRP1)-cytosolic aconitase iron-regulatory switch does not operate in plants |
Q54544653 | The proton pump interactor (Ppi) gene family of Arabidopsis thaliana: expression pattern of Ppi1 and characterisation of knockout mutants for Ppi1 and 2. |
Q57179395 | Tracing the role of plant proteins in the response to metal toxicity: a comprehensive review |
Q54095758 | Transcriptome analysis of nitric oxide-responsive genes in upland cotton (Gossypium hirsutum). |
Q37146671 | Use of recombinant iron-superoxide dismutase as a marker of nitrative stress. |
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