Oxidoreductase enzyme complex C015 / 6554
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Oxidoreductase enzyme complex C015 / 6554
Oxidoreductase enzyme complex, molecular model. This is the membrane-bound domain formed from of a complex of NADH-quinone oxidoreductase subunits. The whole is termed respiratory complex I, due to its role in the biochemistry of the cellular respiratory chain. It harnesses the electron transfer between NADH and ubiquinone, driving the movement of protons across cell membranes. It is an L-shaped complex with six subunits, indicated here by the different colours. This enzyme complex is also being studied for its possible role in human neurodegenerative diseases
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 9212813
© LAGUNA DESIGN/SCIENCE PHOTO LIBRARY
Biomolecule Cell Membrane Cellular Complex Energy Transfer Enzyme Graphic Macromolecule Metabolic Metabolism Molecular Biology Molecules Oxidoreductase Physiological Physiology Proteins Proteomics Proton Channel Respiration Respiratory Structural Ubiquinone Biochemical Biochemistry Cutouts Molecular Model Molecular Structure Protein
EDITORS COMMENTS
This print showcases the intricate molecular structure of the Oxidoreductase enzyme complex C015/6554. The image, set against a striking black background, highlights the complexity and beauty of this membrane-bound domain formed from a complex of NADH-quinone oxidoreductase subunits. Responsible for playing a crucial role in the biochemistry of cellular respiratory chains, this enzyme complex is known as respiratory complex I. It facilitates electron transfer between NADH and ubiquinone, ultimately driving proton movement across cell membranes. The L-shaped configuration of this six-subunit complex is visually represented by distinct colors assigned to each subunit. Beyond its significance in cellular respiration, scientists are actively studying this enzyme complex due to its potential involvement in human neurodegenerative diseases. This artwork provides an insightful glimpse into the structural intricacies that underlie these physiological processes. The image combines elements from biology, physiology, and biochemistry to create a visually stunning representation of macromolecules at work. With its emphasis on cutouts and proteomics research, it offers valuable insights into energy transfer mechanisms within cells. Captured by Laguna Design/Science Photo Library, this illustration serves as both an educational tool for students and researchers alike while also showcasing the artistic beauty inherent in scientific exploration.
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