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Module designation
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Module 8. Methodology and Biotechnology of Animals and Plants
Biotechnology of Higher Plants and Algae
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Module level, if applicable
|
Basic professional modules
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Code, if applicable
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ВHPA 3423
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Subtitle, if applicable
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not applicable
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Courses, if applicable
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Course
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Credits
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Biotechnology of Higher Plants and Algae
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2
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1 lecture+1 lab pre week
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Semester(s) in which the module is taught
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6 semester
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Person responsible for the module
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Associate Professor, candidate of Biological Science Turasheva S.K.
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Lecturer
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Associate Professor, candidate of Biological Science Turasheva S.K.
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Language
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Kazakh, Russian, English
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Relation to curriculum
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(State/Social/ Vocational/IET)
Vocational
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Type of teaching, contact Hours
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Lecture
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Practicum
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Seminars
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15 hours per semester (1 hours per week)
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15 hours per semester (1 hours per week)
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-
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Workload
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Lectures
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Guided self-study
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Self-study
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15 hours per semester (1 hours per week)
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-
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30 hours per semester (2 hours per week)
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Credit points
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2 credits = 3 ECTS
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Requirements according to
the examination regulations
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50% of overall scores
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Recommended prerequisites
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BPB 2415 Basics of Plant Biotechnology
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Module objectives/intended
learning outcomes
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Knowledge
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Skills
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Competences
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- to know the main directions of plant biotechnology;
- the student must to have idea of the theoretical and methodical principles of use cultivated cells in biotechnology;
- the student has to competently and freely explain the theoretical material on the main issues of this course;
- to be able to use the received knowledge for independent increase of theoretical knowledge level and also to be able to apply them in experiments.
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- to own a technique of cultivation of plant cells and tissue;
to be able: to systematize and generalize the knowledge received during lectures and other educational information, scientific and popular scientific sources of information; competently to present a theoretical and practical material according the main questions of this course, to carry out discussions; to define demand of biotechnological products;
Students have to be able to use the received knowledge for improvement the theoretical level and also to apply knowledge in practical activities
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-to be able to apply the received knowledge to increase of theoretical knowledge and also to apply them in practical activities.
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Content
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This course will focus on the principles, techniques and application of plant cell, tissue and organ culture. Composition of and procedures for preparation of nutrient media; techniques for explant and propagule isolation and culture; and tissue culture growth environments required for initiation and maintenance of cell, tissue and organ cultures will be presented. Principles related to the regulation of cell growth, and tissue and organ differentiation will be discussed and linked to the utilization of tissue culture systems for micropropagation and production of haploid plants. Finally, methods of genetic transformation and plant regeneration that result in production of transgenic plants and implications of these methodologies to crop improvement and production of novel plant products through biotechnology will be discussed.
The main molecular and cell technologies in biotechnology of
the higher plants and algae
Cell technologies in the biosynthetic industry
Clonal micropropagation and plants improvement
Overcoming in vitro of progamete and postgamete incompatibility
Haploid technology
Cell selection
Cell engineering
Genetic engineering of plants
Preservation of a gene found in vitro
Biofuel production technologies in culture of algas. Phytoremediation in ecological biotechnology
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Study and examination
requirements and forms of
examination
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Write and oral exam, tests
1st interim control: attendance, in-class discussion, problem solving, testing
2nd interim control: attendance, in-class discussion, problem solving, testing
Final examination: written, 2 theoretical questions, 1 practical question
Intermediate control of knowledge: control work (in written form), colloquium (in oral form) and quiz
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Media employed
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Video lectures, Power Point Presentations
Electronic books and scientific journals
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Reading list
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Wolker Sh. Biotechnology /The McGraw-Hill Companies. 2007. -336 P. (in english)
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Valihanova G.Zh. Plant Biotechnology. Almaty. 2004. (in russian, in kazakh)
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Fowler M.W. Plant cell biotechnology to produce desirable substances. Chem.Ind., 7. 2001. -233 P. (in english)
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Staba E.J. Plant Tissue Culture as a Source of Biochemicals, CRC Press. Boca Raton, Florida.2000 (in english)
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Glik B., Pasternak J. Molecular biotechnology. Principles and apply. M., 2002 (in russian)
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Module designation
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Module 9. Medical biotechnology
Medical biotechnology
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Module level, if applicable
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Basic Professional Modules
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Code, if applicable
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MB 3321
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Subtitle, if applicable
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-
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Courses, if applicable
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Course
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Credits
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Medical biotechnology
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3
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2 lectures+1 seminar
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Semester(s) in which the module is taught
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6semester
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Person responsible for the module
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Dr., Professor Beisembaeva R.U.
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Lecturer
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Dr., Professor Beisembaeva R.U.
associate Professor, candidate of Biological Science Turasheva S.K.
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Language
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Russian, Kazakh, English
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Relation to curriculum
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Vocational
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Type of teaching, contact Hours
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Lecture
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Practicum
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Seminars
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30 hours per semester
2 hours per week
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-
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15 hours per semester
1 hour per week
|
|
Workload
|
Lectures
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Guided self-study
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Self-study
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30 hours per semester (2 hours per week)
|
20 hours per semester
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60 hours per semester (4 hours per week)
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Seminars
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|
|
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15 hours per semester
1 hour per week
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|
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Credit points
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3 credits =5 ECTS
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Requirements according to
the examination regulations
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50% of overall scores
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Recommended prerequisites
|
BAB 2415 Basics of Animal Biotechnology
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Module objectives/intended
learning outcomes
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Knowledge
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Skills
|
Competences
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know: theoretical and practical problems solving framework in medical biotechnology; strategy of biomedical approaches to create diagnostics and drugs using medical biotechnology methods; basis of modern drugs production applied to practical medicine, including hormones, antibiotics, interferons, interleukins, monoclonal antibodies and vaccines; direction of medical biotechnology development;
know the basics of the biotechnological production of medicines for humans and animals;
- to understand the main approaches of creation of new types of medicines, vaccines, methods of diagnostics of diseases
- to analyze achievements of genetics, molecular biology, biotechnology for the purpose of their application for the decision пробленм medicine,
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skills: methods and approaches of studying medical biotechnology objects, the ability to use this knowledge for designing, implementation and interpretation the results of experimental work.
-to have the skills of the microbiological control of raw materials and finished products, development of new biologically active substances, products, food and medical-prophylactic purposes;
-to systematize the knowledge gained at studying of a course and as a result of development of materials of scientific materials and to use them for the analysis of results of pilot studies of medical biotechnology
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- be able to: organize and synthesize knowledge gained through lectures and other educational, scientific and popular information sources; freely, intelligently expound theoretical material on the major issues of this course, hold discussions; determine the demand for products of medical biotechnology in society;
to have an understanding of biotechnological methods for the development of vaccines and prevention of diseases in humans and animals
- to be able to create new approaches for development of new medicines, vaccines, диагностикумов and diagnostics methods.
- to estimate possibility of application of achievements of biology for the solution of problems of medicine, including for early diagnostics and treatment of diseases.
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Content
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Medical considering the creation of new biotechnology drugs, the development of diagnostic methods and systems, new techniques for the treatment of infectious diseases, methods of effective vaccines for the prevention of infectious diseases.
Introduction
Application of recombinant DNA technology in the medical biotechnology
Drugs biotechnology
Immunobiotechnology
Vaccines biotechnology
Stem cells biotechnology
Molecular biotechnology in medicine
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Study and examination
requirements and forms of
examination
|
Oral exam, tests
1st interim control: attendance, in-class discussion, problem solving, testing
2nd interim control: attendance, in-class discussion, problem solving, testing
Final examination: written, 2 theoretical questions, 1 practical question
Intermediate control of knowledge: control work (in written form), colloquium (in oral form) and test
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Media employed
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Video lectures, Audio books, presentations
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Reading list
| -
Almagambetov K.H. Medical Biotechnology. Astana. 2009. -317 p. (in Russian)
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Beisembaeva R.U. Medical and Veterinary Biotechnology. 2010. -231 p. (in Kazakh)
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Sandy B.Primrose, Richard M.Twyman Genomics: applications in Human biology. Blackwell Publishing. 277p.2010 (in english)
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Module designation
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Module 10. Methods of biology teaching
Methods of biology teaching
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Module level, if applicable
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Basic professional modules
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Code, if applicable
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MBT 3425
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Subtitle, if applicable
|
not applicable
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Courses, if applicable
|
Course
|
Credits
|
Methods of biology teaching
|
3
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2 lectures+1lab per week
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Semester(s) in which the module is taught
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6 semester
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Person responsible for the module
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associate professor, candidate of Biologycal Science Doshchanova Б.К.-Russian branch
Professor, candidate of Biologycal Science Tormanov N.T. - the Kazakh branch
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Lecturer
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associate professor, candidate of Biologycal Science Doshchanova Б.К.-Russian branch
Professor, candidate of Biologycal Science Tormanov N.T. - the Kazakh branch
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Language
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Kazakh, Russian
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Relation to curriculum
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(State/Social/ Vocational/IET)
Vocational
|
Type of teaching, contact Hours
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Lecture
|
Practicum
|
Seminars
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30 hours per semester (2 hours per week)
|
15 hours per semester (1 hours per week)
|
-
|
|
Workload
|
Lectures
|
Guided self-study
|
Self-study
|
30 hours per semester (2 hours per week)
|
-
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60 hours per semester (4 hours per week)
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Credit points
|
3 credits=5 ECTS
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Requirements according to
the examination regulations
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Development of the major problems of education and training to subjects of a biological cycle at school. Mastering by methodical receptions and methods of carrying out of lessons of biology.
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Recommended prerequisites
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Biodiversity of plants and animals, anatomy and human physiology, ecology, pedagogy, psychology
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Module objectives/intended
learning outcomes
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Knowledge
|
Skills
|
Competences
|
Knowledge general theoretical foundations of teaching methods to the extent necessary to address the educational objectives for teaching biology in general secondary education, knowledge of methods, techniques and analysis of different types of lessons, the method of formation and development of biological concepts.
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-to plan, organize and plan, organize and spend scientific - educational work; -to have the ability to carry out a calendar, a case and by the job scheduling;
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-to apply the knowledge received in the field of biology to the decision of pedagogical and methodical problems; -methodically competently to carry out lessons, laboratory and practical employment, to use various means of presentation and LTTh.
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Content
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In the course of studying this course, students master the principles of the organization of the educational process for teaching biology, gain skills to use educational programs, textbooks, teaching aids and literature on the biology, teaching and laboratory equipment and new information technologies in the educational process in biology.
The general questions of teaching of biology and theoretical bases of studying of discipline. Methods and methodical receptions of training in biology. Forms of the organization of educational process in biology.
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Study and examination
requirements and forms of
examination
|
Written exam, tests
1st interim control: attendance, in-class discussion, problem solving, testing
2nd interim control: attendance, in-class discussion, problem solving, testing
Final examination: written, 2 theoretical questions, 1 practical question
Intermediate control of knowledge: control work (in written form), colloquium (in oral form) and test
|
Media employed
|
Video lectures, Power Point Presentations
Electronic books
|
Reading list
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1.Verzilin N.M., Korsunska V.M. The general a technique of teaching of biology. M.: Education, 1983. (in russian)
2.Zverev I.D., Myagkov A.N. General a technique of teaching of biology in high school. M.: Education, 1985. (in russian)
3.Ponomareva I.N., V.P.General's Culms a technique of teaching of biology. M.: Academy, 2003. (in russian)
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