Elizabeth C. Theil

Elizabeth C. Theil's AcademicInfluence.com Rankings

Elizabeth C. Theil

Biology

#7476

World Rank

#10408

Historical Rank

Biochemistry

#1286

World Rank

#1405

Historical Rank

biology Degrees

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Biology

Elizabeth C. Theil's Degrees

PhD Biochemistry University of California, Berkeley
Bachelors Chemistry University of California, Berkeley

Why Is Elizabeth C. Theil Influential?

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According to Wikipedia, Elizabeth C. Theil is an American biochemist who worked on iron biology. She became the first woman to be appointed to a chaired professorship at North Carolina State University, in 1988; in the same year she received the O. Max Gardner Award of the University of North Carolina.

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Elizabeth C. Theil's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Ferritin: structure, gene regulation, and cellular function in animals, plants, and microorganisms. (1987) (1225)
Ferritins: dynamic management of biological iron and oxygen chemistry. (2005) (449)
Regulation of ferritin and transferrin receptor mRNAs. (1990) (281)
Structure of Dual Function Iron Regulatory Protein 1 Complexed with Ferritin IRE-RNA (2006) (270)
Iron, ferritin, and nutrition. (2004) (259)
Daphnia magna ecotoxicogenomics provides mechanistic insights into metal toxicity. (2007) (256)
Iron regulatory elements (IREs): a family of mRNA non-coding sequences. (1994) (187)
Opening protein pores with chaotropes enhances Fe reduction and chelation of Fe from the ferritin biomineral (2003) (183)
DNA and mRNA elements with complementary responses to hemin, antioxidant inducers, and iron control ferritin-L expression. (2005) (179)
Ferritin gene transcription is regulated by iron in soybean cell cultures. (1991) (172)
Ferritin: the protein nanocage and iron biomineral in health and in disease. (2013) (170)
Living with iron (and oxygen): questions and answers about iron homeostasis. (2009) (164)
Combinatorial mRNA Regulation: Iron Regulatory Proteins and Iso-iron-responsive Elements (Iso-IREs)* (2000) (162)
Ferritin protein nanocages use ion channels, catalytic sites, and nucleation channels to manage iron/oxygen chemistry. (2011) (159)
Ferritin: at the crossroads of iron and oxygen metabolism. (2003) (152)
Ferritins: iron/oxygen biominerals in protein nanocages (2006) (151)
Evidence for conservation of ferritin sequences among plants and animals and for a transit peptide in soybean. (1990) (150)
A short Fe-Fe distance in peroxodiferric ferritin: control of Fe substrate versus cofactor decay? (2000) (149)
The ferritin family of iron storage proteins. (1990) (148)
Loops and Bulge/Loops in Iron-responsive Element Isoforms Influence Iron Regulatory Protein Binding (1998) (140)
Direct spectroscopic and kinetic evidence for the involvement of a peroxodiferric intermediate during the ferroxidase reaction in fast ferritin mineralization. (1998) (138)
Cellular regulation and molecular interactions of the ferritins (2006) (137)
Women with low iron stores absorb iron from soybeans. (2003) (135)
Differences in the regulation of messenger RNA for housekeeping and specialized-cell ferritin. A comparison of three distinct ferritin complementary DNAs, the corresponding subunits, and identification of the first processed in amphibia. (1987) (132)
Localized Unfolding at the Junction of Three Ferritin Subunits (1998) (128)
NMR reveals pathway for ferric mineral precursors to the central cavity of ferritin (2009) (125)
Purified ferritin and soybean meal can be sources of iron for treating iron deficiency in rats. (1996) (125)
Ferritins for Chemistry and for Life. (2013) (122)
High resolution crystal structures of amphibian red-cell L ferritin: potential roles for structural plasticity and solvation in function. (1995) (119)
Comparison of organ dysfunction in transfused patients with SCD or β thalassemia (2005) (117)
The ferroxidase reaction of ferritin reveals a diferric mu-1,2 bridging peroxide intermediate in common with other O2-activating non-heme diiron proteins. (1999) (115)
Moving metal ions through ferritin-protein nanocages from three-fold pores to catalytic sites. (2010) (112)
Iron absorption from soybean ferritin in nonanemic women. (2006) (109)
Caco-2 intestinal epithelial cells absorb soybean ferritin by mu2 (AP2)-dependent endocytosis. (2008) (107)
Crystal structure of bullfrog M ferritin at 2.8 Å resolution: analysis of subunit interactions and the binuclear metal center (1999) (104)
Bach1 Repression of Ferritin and Thioredoxin Reductase1 Is Heme-sensitive in Cells and in Vitro and Coordinates Expression with Heme Oxygenase1, β-Globin, and NADP(H) Quinone (Oxido) Reductase1* (2007) (102)
The family of iron responsive RNA structures regulated by changes in cellular iron and oxygen (2007) (101)
Iron environment in ferritin with large amounts of phosphate, from Azotobacter vinelandii and horse spleen, analyzed using extended X-ray absorption fine structure (EXAFS). (1990) (101)
"Opening" the ferritin pore for iron release by mutation of conserved amino acids at interhelix and loop sites. (2001) (99)
Transgenic rice is a source of iron for iron-depleted rats. (2002) (98)
Formation of the Ferritin Iron Mineral Occurs in Plastids (An X-Ray Absorption Spectroscopy Study (1995) (96)
Absorption of iron from ferritin is independent of heme iron and ferrous salts in women and rat intestinal segments. (2012) (95)
Multiple, Conserved Iron-responsive Elements in the 3′-Untranslated Region of Transferrin Receptor mRNA Enhance Binding of Iron Regulatory Protein 2* (2002) (91)
Iron in ferritin or in salts (ferrous sulfate) is equally bioavailable in nonanemic women. (2004) (88)
Structural insights into the ferroxidase site of ferritins from higher eukaryotes. (2012) (88)
Iron binding by horse spleen apoferritin. A vanadyl(IV) EPR spin probe study. (1982) (83)
A role for iron and oxygen chemistry in preserving soft tissues, cells and molecules from deep time (2014) (82)
Ferritin reactions: direct identification of the site for the diferric peroxide reaction intermediate. (2004) (82)
Iron-based redox switches in biology. (2009) (81)
THE EFFECT OF POSTTREATMENT WITH OHLORAMPHENICOL VARIOUS ULTRAVIOLET-INDUCED MUTATIONS IN ESCHERICHIA COLI. (1960) (80)
Iron regulatory element and internal loop/bulge structure for ferritin mRNA studied by cobalt(III) hexammine binding, molecular modeling, and NMR spectroscopy. (1998) (78)
Ferritin mRNA: interactions of iron regulatory element with translational regulator protein P-90 and the effect on base-paired flanking regions. (1991) (76)
GATED PORES IN THE FERRITIN PROTEIN NANOCAGE. (2008) (76)
Identification and Characterization of the Iron Regulatory Element in the Ferritin Gene of a Plant (Soybean)* (2000) (73)
Ferritin: At the Crossroads of Iron and Oxygen Metabolism (2003) (72)
Comparison of organ dysfunction in transfused patients with SCD or beta thalassemia. (2005) (71)
Iron homeostasis and nutritional iron deficiency. (2011) (70)
Formation of an Fe(III)-tyrosinate complex during biomineralization of H-subunit ferritin. (1993) (70)
Evidence for reutilization of nodule iron in soybean seed development (1998) (68)
Iron(III) clusters bound to horse spleen apoferritin: an X-ray absorption and Mössbauer spectroscopy study that shows that iron nuclei can form on the protein. (1987) (67)
Fe2+ binds iron responsive element-RNA, selectively changing protein-binding affinities and regulating mRNA repression and activation (2012) (66)
Subunit dimers in sheep spleen apoferritin. The effect on iron storage. (1983) (65)
A sustainable solution for dietary iron deficiency through plant biotechnology and breeding to increase seed ferritin control. (1997) (65)
Moving Fe2+ from ferritin ion channels to catalytic OH centers depends on conserved protein cage carboxylates (2014) (65)
The ferritin iron entry and exit problem (2000) (64)
Formation of iron(III)-tyrosinate is the fastest reaction observed in ferritin. (1993) (64)
Translational control of ferritin synthesis by iron in embryonic reticulocytes of the bullfrog. (1982) (62)
Peptides Selected for the Protein Nanocage Pores Change the Rate of Iron Recovery from the Ferritin Mineral* (2007) (61)
Solving Biology's Iron Chemistry Problem with Ferritin Protein Nanocages. (2016) (61)
Stoichiometric production of hydrogen peroxide and parallel formation of ferric multimers through decay of the diferric-peroxo complex, the first detectable intermediate in ferritin mineralization. (2002) (60)
The importance of the 3'-untranslated region in the translational control of ferritin mRNA. (1988) (59)
The iron regulatory region of ferritin mRNA is also a positive control element for iron-independent translation. (1992) (58)
Iron Translocation into and out of Listeria innocua Dps and Size Distribution of the Protein-enclosed Nanomineral Are Modulated by the Electrostatic Gradient at the 3-fold “Ferritin-like” Pores* (2009) (58)
The ferritin Fe2 site at the diiron catalytic center controls the reaction with O2 in the rapid mineralization pathway (2008) (57)
The influence of the base-paired flanking region on structure and function of the ferritin mRNA iron regulatory element. (1993) (55)
Structure of the 5' untranslated regulatory region of ferritin mRNA studied in solution. (1990) (55)
Ferritin (mRNA, protein) and iron concentrations during soybean nodule development (1993) (55)
Ferritin gene organization: Differences between plants and animals suggest possible kingdom-specific selective constraints (1996) (54)
Internal loop/bulge and hairpin loop of the iron-responsive element of ferritin mRNA contribute to maximal iron regulatory protein 2 binding and translational regulation in the iso-iron-responsive element/iso-iron regulatory protein family. (2000) (54)
13C–13C NOESY spectra of a 480 kDa protein: solution NMR of ferritin (2007) (52)
Paired Bacillus anthracis Dps (Mini-ferritin) Have Different Reactivities with Peroxide* (2006) (52)
Spectroscopic definition of the ferroxidase site in M ferritin: comparison of binuclear substrate vs cofactor active sites. (2008) (51)
Moving Iron through Ferritin Protein Nanocages Depends on Residues throughout Each Four α-Helix Bundle Subunit* (2011) (50)
The importance of a single G in the hairpin loop of the iron responsive element (IRE) in ferritin mRNA for structure: an NMR spectroscopy study (1995) (49)
Fe(III).ATP complexes. Models for ferritin and other polynuclear iron complexes with phosphate. (1985) (49)
A method for Cα direct-detection in protonless NMR (2007) (46)
Structural variations in soluble iron complexes of models for ferritin: an x-ray absorption and Mössbauer spectroscopy comparison of horse spleen ferritin to Blutal (iron-chondroitin sulfate) and Imferon (iron-dextran). (1986) (46)
Crystallization and structural analysis of bullfrog red cell L‐subunit ferritins (1994) (44)
Coordinating responses to iron and oxygen stress with DNA and mRNA promoters: The ferritin story (2007) (43)
Targeting mRNA to regulate iron and oxygen metabolism. (2000) (43)
Living with Iron (and Oxygen): Questions and Answers about Iron Homeostasis (2010) (42)
Multiple red cell ferritin mRNAs, which code for an abundant protein in the embryonic cell type, analyzed by cDNA sequence and by primer extension of the 5'-untranslated regions. (1986) (42)
Ferritin Protein Nanocage Ion Channels (2012) (42)
Direct Fe2+ Sensing by Iron-responsive Messenger RNA·Repressor Complexes Weakens Binding* (2009) (41)
Rapid and parallel formation of Fe3+ multimers, including a trimer, during H-type subunit ferritin mineralization. (1997) (40)
Time-lapse anomalous X-ray diffraction shows how Fe(2+) substrate ions move through ferritin protein nanocages to oxidoreductase sites. (2015) (40)
Similarity of the structure of ferritin and iron . dextran (imferon) determined by extended X-ray absorption fine structure analysis. (1979) (40)
Posttranscriptional Regulation of Ferritin during Nodule Development in Soybean (1994) (40)
Stabilization of iron in a ferrous form by ferritin. A study using dispersive and conventional x-ray absorption spectroscopy. (1987) (39)
Plant Ferritin and Non-Heme Iron Nutrition in Humans. (2004) (39)
IRON HOMEOSTASIS DURING TRANSFUSIONAL IRON OVERLOAD IN β-THALASSEMIA AND SICKLE CELL DISEASE: Changes in Iron Regulatory Protein, Hepcidin, and Ferritin Expression (2007) (37)
5 – PLANT AND MICROBIAL FERRITINS (1993) (36)
Ferritin protein nanocages-the story. (2012) (36)
Mathematical modeling of the dynamic storage of iron in ferritin (2010) (34)
The influence of conserved tyrosine 30 and tissue-dependent differences in sequence on ferritin function: use of blue and purple Fe(III) species as reporters of ferroxidation (1997) (34)
The up-regulation of ferritin expression using a small-molecule ligand to the native mRNA. (2006) (32)
Iron uptake in ferritin is blocked by binding of [Cr(TREN)(H2O)(OH)]2+, a slow dissociating model for [Fe(H2O)6]2+ (2002) (32)
The IRE (iron regulatory element) family: structures which regulate mRNA translation or stability. (1993) (31)
Iron binding proteins without cofactors or sulfur clusters. (1983) (31)
Red cells, ferritin, and iron storage during amphibian development. (1978) (30)
Regulation of ferritin mRNA: a possible gene-sparing phenomenon. Induction of ferritin synthesis by iron in liver as well as red cells combines high translational efficiency with increased utilization of preformed ferritin mRNA. (1983) (29)
Maxi- and mini-ferritins: minerals and protein nanocages. (2011) (29)
Fe2+ substrate transport through ferritin protein cage ion channels influences enzyme activity and biomineralization (2015) (29)
Ferritin as an Iron Concentrator and Chelator Target (2005) (28)
Protein coats of ferritin can sequester large amounts of ferrous iron (1989) (28)
STUDIES ON 6-METHYLAMINOPURINE (6-METHYLADENINE) IN BACTERIAL DEOXYRIBONUCLEIC ACID. (1963) (28)
Ferritin and ferrihydrite nanoparticles as iron sources for Pseudomonas aeruginosa (2013) (28)
Iron responsive mRNAs: a family of Fe2+ sensitive riboregulators. (2011) (27)
Ferritin ion channel disorder inhibits Fe(II)/O2 reactivity at distant sites. (2012) (27)
The effect of copper excess on iron metabolism in sheep. (1978) (27)
A possible role for the conserved trimer interface of ferritin in iron incorporation. (1992) (26)
The validity of periodontal probing as a method of measuring loss of attachment. (1991) (26)
Diseases of iron metabolism. (2002) (24)
Rapid kinetics of iron responsive element (IRE) RNA/iron regulatory protein 1 and IRE-RNA/eIF4F complexes respond differently to metal ions (2014) (24)
Ferritin mRNA translation, structure, and gene transcription during development of animals and plants. (1990) (23)
Rapid reduction of iron in horse spleen ferritin by thioglycolic acid measured by dispersive X-ray absorption spectroscopy (1990) (23)
Amphibian red blood cell ferritin. (1973) (23)
Ferritin Contains Less Iron (59Fe) in Cells When the Protein Pores Are Unfolded by Mutation* (2008) (22)
The effect of iron on the synthesis and amount of ferritin in red blood cells during ontogeny. (1981) (21)
The iron responsive element (IRE) family of mRNA regulators. Regulation of iron transport and uptake compared in animals, plants, and microorganisms. (1998) (21)
Cleavage of Functionally Relevant Sites in Ferritin mRNA by Oxidizing Metal Complexes (1996) (21)
CD and MCD spectroscopic studies of the two Dps miniferritin proteins from Bacillus anthracis: role of O2 and H2O2 substrates in reactivity of the diiron catalytic centers. (2010) (21)
An mRNA Loop/Bulge in the Ferritin Iron-responsive Element Forms in Vivo and Was Detected by Radical Probing with Cu-1,10-phenantholine and Iron Regulatory Protein Footprinting* (2002) (21)
A comparison of an undecairon(III) complex with the ferritin iron core. (1989) (21)
Structure and function of IREs, the noncoding mRNA sequences regulating synthesis of ferritin, transferrin receptor and (erythroid) 5-aminolevulinate synthase. (1994) (20)
Crystallization and preliminary X-ray diffraction analysis of iron regulatory protein 1 in complex with ferritin IRE RNA. (2006) (20)
Modulating the permeability of ferritin channels (2016) (19)
Thermodynamic and Kinetic Analyses of Iron Response Element (IRE)-mRNA Binding to Iron Regulatory Protein, IRP1 (2017) (18)
Loop electrostatics modulates the intersubunit interactions in ferritin. (2014) (18)
Red cell ferritin content during the hemoglobin transition of amphibian metamorphosis. (1973) (17)
Exchange coupling constant J of peroxodiferric reaction intermediates determined by Mössbauer spectroscopy (2002) (16)
Expression of the Arginine Regulon of Escherichia coli W: Evidence for a Second Regulatory Gene (1969) (16)
IRE mRNA riboregulators use metabolic iron (Fe(2+)) to control mRNA activity and iron chemistry in animals. (2015) (16)
Iron at the center of ferritin, metal/oxygen homeostasis and novel dietary strategies. (2006) (16)
Coordinating subdomains of ferritin protein cages with catalysis and biomineralization viewed from the C4 cage axes (2014) (16)
Is His54 a gating residue for the ferritin ferroxidase site? (2015) (15)
Red cell ferritin and iron storage during chick embryonic development. (1979) (15)
The synthesis of hemoglobin and non-hemoglobin protein of amphibian red blood cells related to metamorphosis. (1967) (14)
Oxidation of guanines in the iron-responsive element RNA: similar structures from chemical modification and recent NMR studies. (1998) (14)
1 Transition-Metal Storage , Transport , and Biomineralization (2007) (14)
The Abundance of Ferritin in Yolk‐Sac Derived Red Blood Cells of the Embryonic Mouse (1976) (14)
A distinct environment for iron (III) in the complex with horse spleen apoferritin observed by x-ray absorption spectroscopy. (1983) (14)
Ferritin: structure, function, and regulation. (1983) (13)
Mining ferritin iron: 2 pathways. (2009) (13)
Cell-specific properties of red cell and liver ferritin from bullfrog tadpoles probed by phosphorylation in vitro. (1984) (12)
Ferritin iron minerals are chelator targets, antioxidants, and coated, dietary iron (2010) (12)
Isolation and characterization of arginine-inducible acetylornithine delta-transaminase from Escherichia coli. (1970) (11)
Nature of guanine oxidation in RNA via the flash-quench technique versus direct oxidation by a metal oxo complex. (2010) (11)
EMBRYONIC ERYTHROPOIESIS AND IRON METABOLISM (1980) (11)
Ferritin mineralization: Ferroxidation and beyond (1997) (10)
Red blood cell replacement during the transition from embryonic (tadpole) hemoglobino adult (frog) hemoglobin in Rana catesbeiana. (1970) (10)
Possible Turnover of DNA with an Increased 6-Methylaminopurine Content (1963) (10)
TRANSITION METAL COORDINATION COMPLEXES AS PROBES OF MRNA STRUCTURE : THE IRE (IRON REGULATORY ELEMENT) OF FERRITIN MRNA AS A CASE STUDY (1994) (9)
SECIS-binding protein 2, a key player in selenoprotein synthesis, is an intrinsically disordered protein. (2009) (9)
Iron-Response Element (IRE) Structure and Combinatorial RNA Regulation (2002) (9)
Liver Ferritin Subunit Ratios in Neonatal Hemochromatosis (2003) (9)
The ferritin content of human red blood cells during the replacement of embryonic cells by fetal cells. (1981) (9)
Integrating iron and oxygen/antioxidant signals via a combinatorial array of DNA - (antioxidant response elements) and mRNA (iron responsive elements) sequences. (2006) (9)
Fe(III) Clusters on Ferritin Protein Coats and Other Aspects of Iron Core Formation (1988) (8)
The induction of ferritin synthesis in circulating larval red blood cells. (1978) (8)
Spectroscopic Studies of Single and Double Variants of M Ferritin: Lack of Conversion of a Biferrous Substrate Site into a Cofactor Site for O2 Activation (2014) (8)
Metalloenzymes: Cage redesign explains assembly. (2013) (8)
The Chemistry of Nature's Iron Biominerals in Ferritin Protein Nanocages (2013) (7)
Crosslinks between intramolecular pairs of ferritin subunits: effects on both H and L subunits and on immunoreactivity of sheep spleen ferritin. (1989) (7)
A method for C(alpha) direct-detection in protonless NMR. (2007) (7)
Developmental changes in plasma transferrin concentrations related to red cell ferritin. (1984) (7)
Preliminary analysis of amphibian red cell M ferritin in a novel tetragonal unit cell. (1997) (7)
Ferritin mRNA probed, near the iron regulatory region, with protein and chemical (1,10-phenanthroline-Cu) nucleases A possible role for base-paired flanking regions (2005) (7)
Storage and Translation of Ferritin Messenger RNA (1987) (6)
HETEROGENEITY OF FERRITIN FROM RED BLOOD CELLS (1976) (6)
15N NMR and CD studies of the IRE (iron regulatory element in ferritin mRNA with single base substitution in the hairpin loop. (1995) (5)
Caco-2 Intestinal Epithelial Cells Absorb Soybean Ferritin by m2 (2008) (5)
Equivalence of Ensembles, Condensation and Glassy Dynamics in the Bose–Hubbard Hamiltonian (2019) (4)
The accumulation of basic nonhemoglobin proteins during the differentiation of primitive (embryonic) red cells of amphibia. (1975) (4)
Ferritin. Biomineralization of Iron (2010) (4)
Ferritins: Dynamic Management of Biological Iron and Oxygen Chemistry (2005) (4)
Changes in transferrin during the red cell replacement in amphibia. (1980) (3)
Concentrating, Storing, and Detoxifying Iron: The Ferritins and Hemosiderin (2012) (3)
Faculty Opinions recommendation of The Dps protein of Agrobacterium tumefaciens does not bind to DNA but protects it toward oxidative cleavage: x-ray crystal structure, iron binding, and hydroxyl-radical scavenging properties. (2003) (3)
Iron core formation in ferritins. (1989) (3)
The Ferritin Protein Nanocage and Biomineral, from Single Fe Atoms to FeO Nanoparticles: Starting with EXAFS (2007) (3)
[Oxygen saturation in capillary blood]. (1972) (2)
The biological chemistry of iron : H. Brian Dunford, David Dolphin, Kenneth N. Raymond, and Larry Sieker, Eds., nato advanced study institute series C—mathematical and physical sciences, vol. 89, D. Reidel, Dordrecht, Holland, 1982 (1983) (2)
Clathrin-Mediated Endocytosis of Soybean Ferritin by Caco-2 Cells. (2006) (2)
CHAPTER 13:Ferritin and Its Role in Iron Homeostasis (2014) (2)
Cathodal proteins from primitive (embryonic) red cells of amphibia. Isolation and characterization. (1975) (2)
[2-component technic for the production of positioning supports for highly precise radiotherapy]. (1989) (1)
Fe Transport and Storage Related to Humans and Pathogens and Oxygen (2013) (1)
Towards portability in model-based control software (1987) (1)
Principles of chemistry in biology : a teaching companion (1998) (1)
Rational Development of Peptide Vaccination in Clinical Oncology. Concerning Jäger E, et al.: Peptide vaccination in clinical oncology. Onkologie 2000;23:410–415. (2001) (1)
Dietary nonheme iron is equally bioavailable from ferritin or ferrous sulfate in thalassemia intermedia (2017) (1)
The IRE Model for Families of RNA Structures (1999) (1)
The IRE Model for Families of RNA Structures (1999) (1)
Aconitase activities of FeS IRP-1 and m-aconitase: Evolution of the RNA binding properties coincide with low activity and sensitivity to degradation (1995) (1)
Studies of temperature dependence of iron environment in an undecairon(III) oxo-hydroxo aggregate compound compared to horse spleen ferritin (1989) (1)
Moving iron in ferritin: Leucine 154, a residue near Fe(III) during mineral buildup minimizes mineral dissolution (2011) (1)
THE FORMATION, STRUCTURE AND DISSOLUTION OF THE FERRITIN IRON CORE STUDIED BY X-RAY ABSORPTION SPECTROSCOPY (1986) (1)
Bioinorganic chemistry Coordinate or be coordinated: dynamic relationships between metal ions and biological macromolecules. (2005) (1)
New dimensions of RNA in molecular recognition and catalysis. (2011) (1)
Reply to JR Hunt (2005) (1)
Evidence that ferritin‐L (FTL) and H (FTH) are regulated by the heme‐binding transcriptional repressor Bach1 (2006) (0)
The 4-H horse project [2006] (2006) (0)
Selective Decrease in Regulatory Iron Response Protein 1 (IRP1) binding to mRNA Iron Response Element (IRE) (2009) (0)
Rapid [Fe(III)-tyrosine) and slow biomineralizing ferritins: Structure and function (1993) (0)
Formation of the Ferritin lron Mineral Occurs in Plastids' An X-Ray Absorption Spectroscopy Study (2002) (0)
FERRITIN IRON CORES: VARIABLE IRON BIOMINERALS (1991) (0)
Thermodynamic and Kinetic Analyses of Iron Response Element (IRE)-mRNA Binding to Iron Regulatory Protein, IRP1 (2017) (0)
EXAFS and XANES Studies of Fe and Zn in Horse Spleen Ferritin (1984) (0)
Iron Homeostasis and Nutritional Iron Deficiency 1 – 3 (2011) (0)
Katia Koelle Influenza A ( H 3 N 2 ) in Humans Epochal Evolution Shapes the Phylodynamics of Interpandemic (2013) (0)
Frog M-ferritin with cobalt (2010) (0)
Ferritin: constant and variable features of structure/function and gene regulation (2008) (0)
The interaction between eIF4F and iron response protein with IRE‐mRNA (2011) (0)
Distinctive structures in regulatory regions of ferritin mRNA probed wtih l,10-phenanthrolene(Cu) (1989) (0)
Kinetic Analysis of Iron Responsive Element (IRE) mRNA with Iron Regulatory Protein (IRP1) (2010) (0)
Faculty Opinions recommendation of Analysis of the role of retrotransposition in gene evolution in vertebrates. (2007) (0)
IRON ,F ERRITIN, AND NUTRITION (2004) (0)
Ferrocentric memories of Edward I. Stiefel. (2007) (0)
BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5 (1995) (0)
Frog M-ferritin, D122R mutant, with magnesium (2012) (0)
G. Traffic and storage of metal ions (2009) (0)
The role of IRE and flanking region structure in translational repression of ferritin mRNA (2006) (0)
Immotile cilia syndrome: Reduced chemotaxis and reduced number of intramembranous particles in granulocytes (1984) (0)
Cage redesign explains assembly: Metalloenzymes (2013) (0)
Iron loaded frog M ferritin. Short soaking time (2012) (0)
Frog M-ferritin with magnesium, D127E mutant (2012) (0)
Note from the SBIC President (2014) (0)
In vitro up‐regulation of ferritin expression mediated by small molecules that target mRNA (2007) (0)
Frog M-ferritin with magnesium (2010) (0)
[Resochin treatment of chronic lupus erythematosus]. (1956) (0)
Complete Protection of Chromosome Requires Two Dps proteins (2006) (0)
Translational control of ferritin synthesis: a study of repression using natural and synthetic mRNAs (1987) (0)
Isolation procedures, use and analysis of ferritin (2012) (0)
Ferritin, a flexible protein that directs the conversion of aquo Fe(II)/(III) to solid ferric oxide·H2O (1995) (0)
Mechanism of Activator (eIF4F) and Suppressor (IRP) Binding to Iron Responsive Element mRNA (2013) (0)
Ferritin: Gated pores and Fe transport (2003) (0)
Structure of an mRNA:Repressor Complex ‐ Ferritin‐IRE: IRP1 (2007) (0)
Iron induced eukaryotic initiation factor/ mRNA binding affinity change (2012) (0)
Ferritin and ferrihydrite nanoparticles as iron sources for Pseudomonas aeruginosa (2013) (0)
3P-032 高分解能結晶構造によるフェリチンにおける鉄放出の分子機構の解明(蛋白質-構造機能相関,第47回日本生物物理学会年会) (2009) (0)
Lack of hepatic ferritin or hepatic iron elevation compared to controls in a newborn diagnosed during life with neonatal hemochromatosis (2000) (0)
Coordinating subdomains of ferritin protein cages with catalysis and biomineralization viewed from the C4 cage axes (2014) (0)
Crystal structure analysis of iron regulatory protein 1 in complex with ferritin H IRE RNA (2007) (0)
Faculty Opinions recommendation of A cytosolic iron chaperone that delivers iron to ferritin. (2008) (0)
Gated pore mutation affects ferritin iron in vivo (2008) (0)
Faculty Opinions recommendation of Structural basis of gating by the outer membrane transporter FecA. (2002) (0)
BULLFROG RED CELL L FERRITIN SULFATE/MN/PH 6.3 (1995) (0)
Ferritin iron cores-structure and formation (1989) (0)
Translational Regulation of Bioiron (1998) (0)
Procédé pour l'isolement, l'utilisation et l'analyse de la ferritine (2012) (0)
Ferritin H and L subunit function during iron core formation analyzed by two types of zinc sites. (1991) (0)
Ferritin‐specific diiron ligands control Fe/O2 chemistry in iron mineralization; diiron substrate vs diiron oxygenases (2009) (0)
Structure and function of the MRNA iron regulatory element(IRE) (1993) (0)
Fe2+ substrate transport through ferritin protein cage ion channels influences enzyme activity and biomineralization (2015) (0)
Crosslinked protomers of apoferritin effect in the assembled molecule on immunoreactivity with monoclonal antibodies and electrophoretic mobility (1985) (0)
Frog M-ferritin, EED mutant, with cobalt (2010) (0)
Applications of X-Ray Absorption Spectroscopy to the Study of Ferritin (1987) (0)
3P-032 Atomic Resolution Structures Indicate A Molecular Mechanism for Iron Release Through Functional Pore in Ferritin.(Protein:Structure & Function,The 47th Annual Meeting of the Biophysical Society of Japan) (2009) (0)
, Interpandemic Influenza A ( H 3 N 2 ) in Humans Epochal Evolution Shapes the Phylodynamics of (2010) (0)

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