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rhizoferrin
Known as:
Butanedioic acid, 2,2'-(1,4-butanediylbis(imino(2-oxo-2,1-ethanediyl)))bis(2-hydroxy)-
National Institutes of Health
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1 relation
Broader (1)
Ferric Compounds
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2019
2019
Citryl ornithine is an intermediate in a three-step biosynthetic pathway for rhizoferrin in Francisella.
G. Ramakrishnan
,
N. Pérez
,
Cassandra S. Carroll
,
M. Moore
,
R. Nakamoto
,
T. Fox
ACS Chemical Biology
2019
Corpus ID: 195770632
The Gram-negative bacterium Francisella tularensis secretes the siderophore rhizoferrin to scavenge necessary iron from the…
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2017
2017
A search for glomuferrin: a potential siderophore of arbuscular mycorrhizal fungi of the genus Glomus
G. Winkelmann
Biometals
2017
Corpus ID: 254283118
Most fungi are known to synthesize siderophores under iron limitation. However, arbuscular mycorrhizal fungi (AM fungi) have so…
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2011
2011
FeDFOB and FeEDDHA immobilized on Sepharose gels as an Fe sources to plants
Zehava Yehuda
,
Y. Hadar
,
Yona Chen
Plant and Soil
2011
Corpus ID: 254938057
The idea of immobilizing Fe and the formation of a slow-release fertilizer has been considered in several studies. However, none…
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2008
2008
Characterization of fig operon mutants of Francisella novicida U112.
K. Kiss
,
Wei Liu
,
Jason F. Huntley
,
M. Norgard
,
E. Hansen
FEMS Microbiology Letters
2008
Corpus ID: 205793410
Francisella species secrete a polycarboxylate siderophore that resembles rhizoferrin to acquire ferric iron. Several of the…
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2005
2005
The configuration of the chiral carbon atoms in staphyloferrin A and analysis of the transport properties in Staphylococcus aureus
H. Drechsel
,
G. Winkelmann
Biometals
2005
Corpus ID: 1800981
Staphyloferrin A, the iron-transporting siderophore of Staphylococci, contains two citric acid residues linked to a D-ornithine…
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2005
2005
Chemical properties and NMR spectroscopic identification of certain fungal siderophores.
Arefa Baakza
,
B. Dave
,
H. Dube
Indian journal of experimental biology
2005
Corpus ID: 28396932
Siderophores of six fungi viz. Aspergillus sp. ABp4, Aureobacidium pullulans, Penicillium oxalicum, P. chrysosporium, Mycotypha…
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1999
1999
Transport and utilization of rhizoferrin bound iron in Mycobacterium smegmatis
B. Matzanke
,
R. Böhnke
,
+4 authors
Günther Winkelmann
Biometals
1999
Corpus ID: 27069937
Transport and metabolization of iron bound to the fungal siderophore rhizoferrin was analyzed by transport kinetics, Mössbauer…
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1996
1996
Ferric rhizoferrin uptake into Morganella morganii: characterization of genes involved in the uptake of a polyhydroxycarboxylate siderophore
S. Kühn
,
V. Braun
,
W. Köster
Journal of Bacteriology
1996
Corpus ID: 5983788
Iron uptake in Morganella morganii, mediated by the fungal siderophore rhizoferrin, was studied. A Mud1 insertion mutant devoid…
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1996
1996
Production of rhizoferrin and new analogues obtained by directed fermentation
M. Tschierske
,
H. Drechsel
,
G. Jung
,
H. Zähner
Applied Microbiology and Biotechnology
1996
Corpus ID: 35397858
Abstract The Zygomycete Cunninghamella elegans produces the polycarboxylate siderophore rhizoferrin. Production depends mainly on…
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1996
1996
Specificity and mechanism of rhizoferrin-mediated metal ion uptake
C. Carrano
,
A. Thieken
,
G. Winkelmann
Biometals
1996
Corpus ID: 40880665
Rhizoferrin-mediated iron uptake was studied in two different classes of organisms: a rhizoferrin producing fungus, Absidia…
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