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Target Concepts:
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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Iron increases
ferritin
synthesis, targeting plant DNA and animal mRNA. The
ferritin
promoter in plants has not been identified, in contrast to the
ferritin
promoter and mRNA iron-responsive element (IRE) in animals. The soybean leaf, a natural tissue for
ferritin
expression, and DNA, with promoter deletions and luciferase or glucuronidase reporters, delivered with particle bombardment, were used to show that an 86-base pair fragment (iron regulatory element (
FRE
)) controlled iron-mediated derepression of the
ferritin
gene. Mutagenesis with linkers of random sequence detected two subdomains separated by 21 base pairs.
FRE
has no detectable homology to the animal IRE or to known promoters in DNA and bound a trans-acting factor in leaf cell extracts.
FRE
/factor binding was abrogated by increased tissue iron, in analogy to mRNA (IRE)/iron regulatory protein in animals. Maximum
ferritin
derepression was obtained with 50 microm iron citrate (1:10) or 500 microm iron citrate (1:1) but Fe-EDTA was ineffective, although the leaf iron concentration was increased; manganese, zinc, and copper had no effect. The basis for different responses in
ferritin
expression to different iron complexes, as well as the significance of using DNA but not mRNA as an iron regulatory target in plants, remain unknown.
...
PMID:Identification and characterization of the iron regulatory element in the ferritin gene of a plant (soybean). 1074 12
Ferritin, ubiquitous among all living organisms except yeast, exhibits iron-regulated expression. In plants, this regulation is applied through transcriptional control. Previous studies established the presence of two types of cis-acting elements in the promoter region: the iron regulatory element (
FRE
) in soybean and the iron-dependent regulatory sequence (IDRS) in maize and Arabidopsis. Adverse environmental conditions (e.g. water-deficit and oxidative stress) are known to modulate the expression of phytoferritin genes. In this study, we cloned and investigated the promoter sequence of a chickpea
ferritin
, designated CaFer1. Phylogenetic analysis of the CaFer1 promoter revealed its evolutionary relationship with other phytoferritins. The CaFer1 promoter exhibited several putative regulatory elements including two known transcription factor (TF) binding sites, Athb-1 and Myb.Ph. Electrophoretic mobility shift assay confirmed the sequence-specific binding of Athb-1 and Myb.Ph on the CaFer1 promoter. The TF-binding dynamics of CaFer1 showed high induction under conditions of iron-deficiency and water-deficit. We also demonstrated the possible interaction of CaFer1 with IRT1, a key component of the iron uptake system in plants, indicating its involvement in maintaining cellular iron levels. These results provide new insights into the underlying mechanisms of function of these interacting factors in CaFer1-mediated iron homeostasis and the stress response in plants.
...
PMID:Transcriptional regulation of chickpea ferritin CaFer1 influences its role in iron homeostasis and stress response. 2930 82
