Subjects

Physics of biomolecules

Course: Biomedical Physics, Engineering and Informatics

Structural unit: Faculty of Radiophysics, Electronics and Computer Systems

Title

Physics of biomolecules

Code

ВБ.1.05

Module type

Вибіркова дисципліна для ОП

Educational cycle

Second

Year of study when the component is delivered

2022/2023

Semester/trimester when the component is delivered

3 Semester

Number of ECTS credits allocated

Learning outcomes

Student should know the basis of computer molecular modeling for large biological molecules Student should be able to apply the basis of computer molecular modeling for large biological molecules The student must know the main topological and physical characteristics of basic biomolecules (in particular, DNA, biomembranes, lipids, enzymes, amino acids etc.). The student should know the types and identities of interaction at different distances of the ions of the main macro- and microelements with the surface of biomolecules. The student should know the peculiarities of the influence of intercellular fluid and aqueous solutions on the structure of biomolecules and the quantitative characteristics of the interaction of various ions with the surface of biomolecules.

Form of study

Full-time form

Prerequisites and co-requisites

Student should know basics of molecular physics, electrodynamics, quantum mechanics and mathematics disciplines in the range of applied physics bachelor program Student should be able to solve tasks in electrodynamics, quantum mechanics and molecular physics using appropriate mathematics

Course content

The basics of quantum-mechanical, semi-classical and classical methods of description, analysis of the principles of operation and methods of modeling the electronic structure and geometry of complex molecules, the application of these methods to the problems of modeling complex biological molecules are given.

Recommended or required reading and other learning resources/tools

1 A. Szabo, N. S. Ostlund Modern Quantum Chemistry: Introduction to Advanced Electronic Structure Theory. Dover Publications, 1996, 465 pp. 2 K. Burk. The ABC of DFT. http://dft.rutgers.edu/kieron/beta cit. 01.05.2008 3 H. Bruus, K. Flensberg Many-body Quantum Theory In Condensed Matter Physics. - Oxford Univ Pr. – 2004, 435 pp. 4 Костюк П. Г., Зима В. Л., Магура І. С., Мірошниченко М. С., Шуба М. Ф. Біофізика. — К. : ВПЦ "Київський університет", 2008. — 567 с 5 Висоцький В.І., Корнілова А.А., Смирнов І.В. Прикладна біофізика активованої води (фізичні властивості, біологічні ефекти та медичне застосування активованої води MRET), World Scientific Publishing, Сінгапур, 2009, 317 стор

Planned learning activities and teaching methods

Lectures 30 hours

Assessment methods and criteria

Semester score: semester has two modules. Written module test is hold after each module up to 30 points. Final score: in the form of written exam up to 40 points. The condition of successful grade is not less than 60 points in total

Language of instruction

ukrainian

Lecturers

This discipline is taught by the following teachers

Volodymyr Ivanovych Vysotskyy

Department of mathematics and Theoretical Radio Physics
Faculty of Radiophysics, Electronics and Computer Systems

Oleksandr Oleksandrovych Sudakov

Department of Medical Radiophysics
Faculty of Radiophysics, Electronics and Computer Systems

Departments

The following departments are involved in teaching the above discipline

Department of mathematics and Theoretical Radio Physics

Faculty of Radiophysics, Electronics and Computer Systems

Department of Medical Radiophysics

Faculty of Radiophysics, Electronics and Computer Systems