Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In plants, the
ABC transporter
PDR (pleiotropic drug resistance) subfamily is composed of approximately 15 genes, few of which have been analyzed. We have identified NtPDR3, a Nicotiana tabacum PDR gene belonging to a cluster for which no functional data was previously available. NtPDR3 was found to be induced in suspension cells treated with methyl jasmonate, salicylic acid, 1-naphthalene acetic acid, or cembrene, a macrocyclic diterpene. In agreement with the identification of a putative
iron deficiency
element in the NtPDR3 transcription promoter region, we found that
iron deficiency
in the culture medium induced NtPDR3 expression, thus suggesting a new function of the PDR transporter family.
...
PMID:NtPDR3, an iron-deficiency inducible ABC transporter in Nicotiana tabacum. 1633 4
Iron availability affects the course of tuberculosis infection, and the ability to acquire this metal is known to be essential for replication of Mycobacterium tuberculosis in human macrophages. M. tuberculosis overcomes
iron deficiency
by producing siderophores. The relevance of siderophore synthesis for iron acquisition by M. tuberculosis has been demonstrated, but the molecules involved in iron uptake are currently unknown. We have identified two genes (irtA and irtB) encoding an
ABC transporter
similar to the YbtPQ system involved in iron transport in Yersinia pestis. Inactivation of the irtAB system decreases the ability of M. tuberculosis to survive iron-deficient conditions. IrtA and -B do not participate in siderophore synthesis or secretion but are required for efficient utilization of iron from Fe-carboxymycobactin, as well as replication of M. tuberculosis in human macrophages and in mouse lungs. We postulate that IrtAB is a transporter of Fe-carboxymycobactin. The irtAB genes are located in a chromosomal region previously shown to contain genes regulated by iron and the major iron regulator IdeR. Taken together, our results and previous observations made by other groups regarding two other genes in this region indicate that this gene cluster is dedicated to siderophore synthesis and transport in M. tuberculosis.
...
PMID:Identification of an ABC transporter required for iron acquisition and virulence in Mycobacterium tuberculosis. 1638 31
Iron is an essential nutrient not freely available to microorganisms infecting mammals. To overcome
iron deficiency
, bacteria have evolved various strategies including the synthesis and secretion of high-affinity iron chelators known as siderophores. The siderophores produced and secreted by Mycobacterium tuberculosis, exomycobactins, compete for iron with host iron-binding proteins and, together with the iron-regulated
ABC transporter
IrtAB, are required for the survival of M. tuberculosis in iron deficient conditions and for normal replication in macrophages and in mice. This study further characterizes the role of IrtAB in M. tuberculosis iron acquisition. Our results demonstrate a role for IrtAB in iron import and show that the amino terminus domain of IrtA is a flavin-adenine dinucleotide-binding domain essential for iron acquisition. These results suggest a model in which the amino terminus of IrtA functions to couple iron transport and assimilation.
...
PMID:The Mycobacterium tuberculosis high-affinity iron importer, IrtA, contains an FAD-binding domain. 1994 99
The chemical composition of root exudates strongly impacts the interactions of plants with microorganisms in the rhizosphere and the efficiency of nutrient acquisition. Exudation of metabolites is in part mediated by ATP-binding cassette (ABC) transporters. In order to assess the contribution of individual ABC transporters to root exudation, we performed an LC-MS based non-targeted metabolite profiling of semi-polar metabolites accumulating in root exudates of Arabidopsis thaliana plants and mutants deficient in the expression of ABCG36 (PDR8/PEN3), ABCG37 (PDR9) or both transporters. Comparison of the metabolite profiles indicated distinct roles for each
ABC transporter
in root exudation. Thymidine exudation could be attributed to ABCG36 function, whereas coumarin exudation was strongly reduced only in ABCG37 deficient plants. However, coumarin exudation was compromised in abcg37 mutants only with respect to certain metabolites of this substance class. The specificity of ABCG37 for individual coumarins was further verified by a targeted LC-MS based coumarin profiling method. The response to
iron deficiency
, which is known to strongly induce coumarin exudation, was also investigated. In either treatment, the distribution of individual coumarins between roots and exudates in the investigated genotypes suggested the involvement of ABCG37 in the exudation specifically of highly oxygenated rather than monohydroxylated coumarins.
...
PMID:Arabidopsis Transporter ABCG37/PDR9 contributes primarily highly oxygenated Coumarins to Root Exudation. 2862 73
Although iron is present in large amounts in the soil, its poor solubility means that plants have to use various strategies to facilitate its uptake. In this study, we show that expression of NtPDR3/NtABCG3, a Nicotiana tabacum plasma-membrane
ABC transporter
in the pleiotropic drug resistance (PDR) subfamily, is strongly induced in the root epidermis under
iron deficiency
conditions. Prevention of NtPDR3 expression resulted in N. tabacum plants that were less tolerant to iron-deficient conditions, displaying stronger chlorosis and slower growth than those of the wild-type when not supplied with iron. Metabolic profiling of roots and root exudates revealed that, upon
iron deficiency
, secretion of catechol-bearing O-methylated coumarins such as fraxetin, hydroxyfraxetin, and methoxyfraxetin to the rhizosphere was compromised in NtPDR3-silenced plants. However, exudation of flavins such as riboflavin was not markedly affected by NtPDR3-silencing. Expression of NtPDR3 in N. tabacum Bright Yellow-2 (BY-2) cells resulted in altered intra- and extracellular coumarin pools, supporting coumarin transport by this transporter. The results demonstrate that N. tabacum secretes both coumarins and flavins in response to
iron deficiency
and that NtPDR3 plays an essential role in the plant response to
iron deficiency
by mediating secretion of O-methylated coumarins to the rhizosphere.
...
PMID:The Nicotiana tabacum ABC transporter NtPDR3 secretes O-methylated coumarins in response to iron deficiency. 2989 71
Atmospheric nitrogen fixation by photosynthetic cyanobacteria (diazotrophs) strongly influences oceanic primary production and in turn affects global biogeochemical cycles. Species of the genus
Trichodesmium
are major contributors to marine diazotrophy, accounting for a significant proportion of the fixed nitrogen in tropical and subtropical oceans. However,
Trichodesmium
spp. are metabolically constrained by the availability of iron, an essential element for both the photosynthetic apparatus and the nitrogenase enzyme. Survival strategies in low-iron environments are typically poorly characterized at the molecular level, because these bacteria are recalcitrant to genetic manipulation. Here, we studied a homolog of the
iron deficiency
-induced A (IdiA)/ferric uptake transporter A (FutA) protein, Tery_3377, which has been used as an
in situ
iron-stress biomarker. IdiA/FutA has an ambiguous function in cyanobacteria, with its homologs hypothesized to be involved in distinct processes depending on their cellular localization. Using signal sequence fusions to GFP and heterologous expression in the model cyanobacterium
Synechocystis
sp. PCC 6803, we show that Tery_3377 is targeted to the periplasm by the twin-arginine translocase and can complement the deletion of the native
Synechocystis
ferric-iron
ABC transporter
periplasmic binding protein (FutA2). EPR spectroscopy revealed that purified recombinant Tery_3377 has specificity for iron in the Fe
3+
state, and an X-ray crystallography-determined structure uncovered a functional iron substrate-binding domain, with Fe
3+
pentacoordinated by protein and buffer ligands. Our results support assignment of Tery_3377 as a functional FutA subunit of an Fe
3+
ABC transporter
but do not rule out dual IdiA function.
...
PMID:Structural and functional characterization of IdiA/FutA (Tery_3377), an iron-binding protein from the ocean diazotroph
Trichodesmium erythraeum
. 3021 20
