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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    MOLECULAR MODELING IN BIOLOGICAL SYSTEMS KİM595 FALL-SPRING 3+0 University E 6
    Learning Outcomes
    1-Defines the basic principles of molecular modeling studies in biological systems.
    2-Interprets the methods used in molecular modeling studies.
    3-Explains the terminologies related to molecular modeling.
    4-Interprets the software required for molecular modeling.
    Prerequisites -
    Language of Instruction Turkish
    Responsible Associate Professor Saliha ALYAR
    Instructors

    1-)Profesör Dr Saliha Alyar
    Assistants -
    Resources K1. Leach, A. R. (2001). Molecular Modelling Principles and Applications, 2. Ed., Prentice Hall. K2. Schlick, T. (2002). Molecular Modeling and Simulation, Springer K3. Ramachandran, K. I. Deepa, G., Namboori, K. (2008). Computational Chemistry and Molecular Modeling-Principles and Applications, Springer-Verlag. K4. Warshel, A. (1991). Computer Modeling of Chemical Reactions in Enzymes and Solutions, John Wiley & Sons, Inc.
    Supplementary Book -
    Goals The aim of this course is to teach the methods of drug active substance design which is interesting for today`s researchers, to teach the calculation and to give information about some important biologically active compounds and synthesis methods.
    Content Useful concepts in molecular modeling. Quantum mechanical methods. Molecular mechanics methods. Molecular dynamics methods. Monte Carlo methods. Conformational analysis. Protein structure determination. Applications of molecular modeling methods.
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