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Heme
Spectroscopy of Porphyrins
Electronic Spectroscopy of Free Base Porphyrins and Metalloporphyrins
Tricarboxylic Acid (TCA) Cycle Intermediates: Regulators of Immune Responses
Citric Acid Cycle
Regulation of Heme Pathway Enzymes and Cellular Glutathione Content By
Continuous Chlorophyll Degradation Accompanied by Chlorophyllide and Phytol Reutilization for Chlorophyll Synthesis in Synechocystis Sp
Crystal Structures and Atomic Model of NADPH Oxidase
Heme Degradation in Pathophysiology of and Countermeasures to Inflammation-Associated Disease
Characterization and Transcriptomic Analysis of a Novel Yellow-Green
Hc-Hrg-2, a Glutathione Transferase Gene, Regulates Heme Homeostasis
Heme Iron Is from Animal Products Such • Some Foods Can Reduce the Amount of As Red Meat, Fish and Poultry
7 Bilirubin Metabolism
Structure, Function, and Assembly of Heme Centers in Mitochondrial Respiratory Complexes Hyung J
Citric Acid Cycle
Porphyrins and Heme in Microorganisms
Heme: a Versatile Signaling Molecule Controlling the Activities of Diverse Regulators Ranging from Transcription Factors to MAP Kinases
CITRIC ACID/KREB's CYCLE: Process and Explanation
Steroid Control of Porphyrin and Heme Biosynthesis: a New Biological Function of Steroid Hormone Metabolites* by S
Top View
Metalloproteins in the Biology of Heterocysts
Nicotinamide Adenine Dinucleotide Metabolism As an Attractive Target for Drug 1
Protective Effect of Glutathione Against Oxidative Stress-Induced
Heme Isomers Substantially Affect Heme's Electronic Structure and Function
Repositioned Drugs for Chagas Disease Unveiled Via Structure-Based Drug Repositioning
Structural Basis for the Electron Transfer from an Open Form of NADPH-Cytochrome P450 Oxidoreductase to Heme Oxygenase
Heme Metabolism Dr Bela Goyal Heme Biosynthesis=Porphyrins+Fe •Disorder: Porphyria Heme Catabolism=Bile Pigments+Fe •Disorder: Hyperbilirubinemia PORPHYRINS
Nitrene Transfer Catalyzed by a Non-Heme Iron Enzyme and 8 Enhanced by Non-Native Small-Molecule Ligands 9 10 Nathaniel W
Biosynthesis of Heme in Mammals ⁎ Richard S
Discovery of Multiple Modified F430 Coenzymes in Methanogens And
Noncanonical Heme Ligands Steer Carbene Transfer Reactivity in An
From Synthesis to Utilization: the Ins and Outs of Mitochondrial Heme
Molecular Hijacking of Siroheme for the Synthesis of Heme and D1 Heme
View of the Fq -Fc Electron Density Map of the Active Site of the Zinc Deformylase-PCLNA Complex with the Inhibitor Omitted
The Formation of Bilirubin from Hemoglobin in Vivo
Orientation of the Chlorophyll SI Transition Dipolet
Effects of Folding on Metalloprotein Active Sites (Protein Folding͞rack Formation͞cytochrome C͞azurin͞electron Transfer)
Coupling of Redox and Structural States in Cytochrome P450
The Coenzyme/Protein Pair and the Molecular Evolution of Life Cite This: Nat
Enzymatic Conversion of Heme to Bilirubin in Normal and Starved Fetuses and Newborn Rats
Citric Acid Cycle = Tricarboxylic Acid Cycle = Krebs Cycle – Plays a Central Role in Metabolism of Living Organisms
Expanding the Scope of Metalloprotein Families and Substrate Classes in New-To- Nature Reactions
36 Disorders of Heme Biosynthesis
Two-Component FAD-Dependent Monooxygenases: Current Knowledge and Biotechnological Opportunities
Bilirubin and Jaundice
Control of Heme Metabolism with Synthetic Metalloporphyrins
Crystal Structure of Heme a Synthase from Bacillus Subtilis
NAD+ Is Used As an Electron Acceptor in Oxidative Catabolism
Induction of 6-Aminolevulinate Synthase and Heme Oxygenase (Hemoproteins/Heme Synthesis/Drug Metabolism/Porphyrins) MAHIN D
The Citric Acid Cycle Because It Is Here That Entire Cycle (See HERE)
The Role of Bilirubin and the Other “Yellow Players” in Neurodegenerative Diseases
Unusual Folded Conformation of Nicotinamide Adenine Dinucleotide Bound to Flavin Reductase P