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- Studies of the Structure and Function of Recombinant Human Hephaestin
- Mining Copper Transport Genes
- Abnormal Copper Homeostasis: Mechanisms and Roles in Neurodegeneration
- Expression of Soluble, Active, Fluorescently Tagged Hephaestin in COS and CHO Cell Lines
- Genetic Disorders Associated with Metal Metabolism
- ATP7A-Regulated Enzyme Metalation and Trafficking in the Menkes
- Expression of Ferroportin1, Hephaestin And
- Organ‑Specific Expression of the Divalent Ion Channel Proteins NCKX3, TRPV2, CTR1, ATP7A, IREG1 and HEPH in Various Canine Organs
- Transferrin Receptor 2 Is Emerging As a Major Player in the Control of Iron Metabolism
- Severe Iron Metabolism Defects in Mice with Double Knockout of the Multicopper Ferroxidases Hephaestin and Ceruloplasmin Brie K
- The Long Non-Coding RNA GHSROS Reprograms Prostate Cancer Cell Lines
- Recombinant Expression and Functional Characterization of Human Hephaestin: a Multicopper Oxidase with Ferroxidase Activity
- Large Scale Expression and Purification of Secreted Mouse Hephaestin
- Multi-Copper Oxidases and Human Iron Metabolism
- The Molecular Genetics of Haemochromatosis
- Atp7a) Impairs Iron Flux in Fully-Differentiated Rat (IEC-6
- Bioinorganic Chemistry for Medical Students
- Biological Inorganic Chemistry an Introduction This Page Intentionally Left Blank Biological Inorganic Chemistry an Introduction
- Pathways for the Regulation of Body Iron Homeostasis in Response to Experimental Iron Overload
- Cloning and Expression of the Two Isoforms of Copper Atpase
- Transferrin Receptor 1 Mrna Is Downregulated in Placenta of Hepcidin Transgenic Embryos
- Intestinal Hephaestin Potentiates Iron Absorption in Weanling, Adult, and Pregnant Mice Under Physiological Conditions
- Ceruloplasmin Deficiency Does Not Induce
- Multi-Copper Ferroxidase Deficiency Leads to Iron Accumulation And
- Wilson's Disease Protein Binds Nucleotides and Interacts with the N
- Menkes Disease
- Intestinal Hephaestin Potentiates Iron Absorption in Weanling, Adult, and Pregnant Mice Under Physiological Conditions
- Intersection of Iron and Copper Metabolism in the Mammalian Intestine and Liver
- Organ-Specific Regulation of ATP7A Abundance Is Coordinated With
- Regulation of Transferrin Receptor 2 Stability and Trafficking in Hepatoma Cells