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5.8: Problems - Predicting Protein Structure and Function Using Machine Learning and AI Programs
https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/01%3A_Unit_I-_Structure_and_Catalysis/05%3A_Protein_Function/5.8%3A__Problems_-_Predicting_Protein_Structure_and_Function_Using_Machine_Learning_and_AI_Programs
The document provides exercises and instructions for using machine learning/AI algorithms to predict protein structures, functions, and interactions, as well as design proteins with specific functions...The document provides exercises and instructions for using machine learning/AI algorithms to predict protein structures, functions, and interactions, as well as design proteins with specific functions. It emphasizes the use of tools such as AlphaFold, ESMFold, and iCn3D for modeling and rendering structures and interacting domains.
19.1: Electron-Transfer Reactions in Mitochondria
https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/02%3A_Unit_II-_Bioenergetics_and_Metabolism/19%3A_Oxidative_Phosphorylation/19.01%3A_Electron-Transfer_Reactions_in_Mitochondria
The page discusses the mitochondrial electron transport system and oxidative phosphorylation, focusing on electron transport complexes I-IV. It describes each complex's structure, function, and electr...The page discusses the mitochondrial electron transport system and oxidative phosphorylation, focusing on electron transport complexes I-IV. It describes each complex's structure, function, and electron transfer mechanisms, including cofactors involved. The page details how electron transfer is linked to proton movement, establishing a proton gradient that drives ATP synthesis.

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