RSS Feed for Protein Function https://solvonauts.org/%3Faction%3Drss_search%26term%3DProtein+Function RSS Feed for Protein Function 7.89J Topics in Computational and Systems Biology (MIT) 7.89J Topics in Computational and Systems Biology (MIT) This is a seminar based on research literature Papers covered are selected to illustrate important problems and approaches in the field of computational and systems biology and provide students a framework from which to evaluate new developments The MIT Initiative in Computational and Systems Biology CSBi is a campus wide research and education program that links biology engineering and computer science in a multidisciplinary approach to the systematic analysis and modeling of complex biological phenomena This course is one of a series of core subjects offered through the CSB Ph D program for students with an interest in interdisciplinary training and research in the area of computational and systems biology This is a seminar based on research literature Papers covered are selected to illustrate important problems and approaches in the field of computational and systems biology and provide students a framework from which to evaluate new developments The MIT Initiative in Computational and Systems Biology CSBi is a campus wide research and education program that links biology engineering and computer science in a multidisciplinary approach to the systematic analysis and modeling of complex biological phenomena This course is one of a series of core subjects offered through the CSB Ph D program for students with an interest in interdisciplinary training and research in the area of computational and systems biology http://ocw.mit.edu/courses/biology/7-89j-topics-in-computational-and-systems-biology-fall-2010 http://ocw.mit.edu/courses/biology/7-89j-topics-in-computational-and-systems-biology-fall-2010 Introduction to Chemical Biology 128. Lecture 12. Protein Functions. UCI Chem 128 Introduction to Chemical Biology Winter 2013 Lec 12 Introduction to Chemical Biology Protein Functions View the complete course http ocw uci edu courses chem 128 introduction to chemical biology html Instructor Gregory Weiss Ph D License Creative Commons BY NC SA Terms of Use http ocw uci edu info More courses at http ocw uci edu Description Introduction to the basic principles of chemical biology structures and reactivity chemical mechanisms of enzyme catalysis chemistry of signaling biosynthesis and metabolic pathways Introduction to Chemical Biology Chem 128 is part of OpenChem http ocw uci edu collections open chemistry html This video is part of a 18 lecture undergraduate level course titled Introduction to Chemical Biology taught at UC Irvine by Professor Gregory Weiss Recorded February 15 2013 Index of Topics 0 15 32 Protein Conformation 0 18 28 All B Sheet Proteins 0 27 13 WD Proteins Scaffold Together Large Assemblies 0 28 12 Collagen is Formed from a 3 Stranded Coil 0 29 21 All a Helical Proteins 0 31 40 a B Proteins 0 33 21 Peptide Binding Domains 0 39 05 Higher Order Assemblies of Proteins 0 41 23 Equilibrium Constants to Describe the Strengths of Non Covalent Interactions 0 46 54 Following the SPeeds of Reactions 0 49 25 Rates of Non Covalent Interactions 0 50 16 Typical Rates of Binding 0 53 09 Measuring Biological Potency Through Dose Responsive Curve 0 56 26 Measuring Biological Reponse by ELISA 0 59 36 Steptavidin Biotin Offers Near Covalent Binding Affinity 1 00 39 Biotinylated Reagents Used Extensively in Chemical Biology 1 03 47 Enxymatic Catalysts Catalytic Receptors Required attribution Weiss Gregory Introduction to Chemical Biology 128 UCI OpenCourseWare University of California Irvine http ocw uci edu courses chem 128 introduction to chemical biology html Access date License Creative Commons Attribution ShareAlike 3 0 United States License http creativecommons org licenses by sa 3 0 us deed en US http://www.youtube.com/watch?v=SxJooFrxKRk http://www.youtube.com/watch?v=SxJooFrxKRk Introduction to Chemical Biology 128. Lecture 13. Protein Function and Enzymes. UCI Chem 128 Introduction to Chemical Biology Winter 2013 Lec 13 Introduction to Chemical Biology Protein Function and Enzymes View the complete course http ocw uci edu courses chem 128 introduction to chemical biology html Instructor Gregory Weiss Ph D License Creative Commons BY NC SA Terms of Use http ocw uci edu info More courses at http ocw uci edu Description Introduction to the basic principles of chemical biology structures and reactivity chemical mechanisms of enzyme catalysis chemistry of signaling biosynthesis and metabolic pathways Introduction to Chemical Biology Chem 128 is part of OpenChem http ocw uci edu collections open chemistry html This video is part of a 18 lecture undergraduate level course titled Introduction to Chemical Biology taught at UC Irvine by Professor Gregory Weiss Recorded February 21 2013 Index of Topics 0 00 41 Enzymes 0 03 20 Repeat Proteins 0 05 16 Equilibrium Constants 0 06 25 Enzymatic Catalysts Catalytic Receptors 0 07 03 Michaelis Constant for Measuring Catalysis 0 15 30 The Perfect Enzyme 0 21 29 Kinases Phosphorylation of Ser Thr or Tyr 0 34 19 Why Study Single Molecules 0 37 44 How to Follow Enzymatic Catalysis with Single Walled Carbon Nanotubes 0 41 34 Single Biomolecule Bioelectronics 0 44 24 Before and After Enzyme Attachment 0 46 29 Watching cAMP Dependent Protein Kinase A 0 49 18 Further Generalization Protein A Kinase 0 55 55 Lysozyme as a Model Enzyme for Glycosdie Hydrolysis 1 08 22 Proteases Cleave Amide Bonds 1 12 37 Regulation of Proteases Through Pro Enzymes Required attribution Weiss Gregory Introduction to Chemical Biology 128 UCI OpenCourseWare University of California Irvine http ocw uci edu courses chem 128 introduction to chemical biology html Access date License Creative Commons Attribution ShareAlike 3 0 United States License http creativecommons org licenses by sa 3 0 us deed en US http://www.youtube.com/watch?v=eftzZ-Xpvts http://www.youtube.com/watch?v=eftzZ-Xpvts 7.89J Topics in Computational and Systems Biology (MIT) This is a seminar based on research literature Papers covered are selected to illustrate important problems and approaches in the field of computational and systems biology and provide students a framework from which to evaluate new developments The MIT Initiative in Computational and Systems Biology CSBi is a campus wide research and education program that links biology engineering and computer science in a multidisciplinary approach to the systematic analysis and modeling of complex biological phenomena This course is one of a series of core subjects offered through the CSB Ph D program for students with an interest in interdisciplinary training and research in the area of computational and systems biology https://ocw.mit.edu/courses/biology/7-89j-topics-in-computational-and-systems-biology-fall-2010 https://ocw.mit.edu/courses/biology/7-89j-topics-in-computational-and-systems-biology-fall-2010