|
Module designation
|
Module 7. Industrial and Food Biotechnology
Industrial Biotechnology
|
Module level, if applicable
|
Basic Professional Modules
|
Code, if applicable
|
ІВ 3317
|
Subtitle, if applicable
|
-
|
Courses, if applicable
|
Course
|
Credits
|
Industrial Biotechnology
|
2
|
|
1 lectures+1 Lab
|
Semester(s) in which the module is taught
|
5 semester
|
Person responsible for the module
|
Dr., Professor Mukasheva T.D.
associate Professor, candidate of Biological Science Berzhanova R.Zh.
|
Lecturer
|
Dr., Professor Mukasheva T.D.
|
Language
|
Russian, Kazakh, English
|
Relation to curriculum
|
Vocational
|
Type of teaching, contact Hours
|
Lecture
|
Practicum
|
Seminars
|
15 hours per semester (1 hours per week)
|
15 hours per semester (1 hours per week)
|
-
|
|
Workload
|
Lectures
|
Guided self-study
|
Self-study
|
15 hours per semester (1 hours per week)
|
-
|
30 hours per semester (2 hours per week)
|
Credit points
|
2 credits =3 ECTS
|
Requirements according to
the examination regulations
|
50% of scores
|
Recommended prerequisites
|
BMB 2414 Basics of Microorganisms Biotechnology
|
Module objectives/intended
learning outcomes
|
Knowledge
|
Skills
|
Competences
|
technological scheme of production of microbial bio-products;
principles of aseptic processing;
techniques that provide an exception entry of microorganisms in the production process; the necessary hardware;
gygiene requirements for production facilities and manufacturing processes
Remember
Remember the broad knowledge in the fields of microbiology and virology, environmental biotechnology and etc.
Understand
Has the knowledge of the most recent researches, discoveries and application of microorganisms in industrial and food microbiology.
|
Must own the: skills in industrial microbiology laboratories; methods of storage of microorganisms; skills to maintain the production of crops; skills to produce the desired metabolic products of microorganisms.
Apply
Apply the rules of planning and optimization of production processes in industrial and food biotechnology
Analysis
Analyze, independently plan and perform experiments with industrial microorganisms
|
Be able to:receive the inoculum; carry out solid-phase cultivation of producers; carry out a deep cultivation.
Evaluate
Evaluate the obtained results and draw conclusions and use of the world scientific databases
Create
Create and interpret research results of physiological and biochemical analyses based on the obtained data
|
Content
|
The purpose of the course - familiarity with technological schemes of microbiological industries, raw materials, equipment, methods, quality control of finished products, the selection of microbial strains with increased synthetic ability to meet production requirements. We will study the conditions for their cultivation.
Specific topics include the theoretical and practical problems associated with the production of microbial synthesis. Discuss some productions technology based on the use of microorganisms for food products and new directions in Industrial Microbiology related with new raw materials, immobilized cells, high-yield strains of microorganisms genetic engineering.
|
Study and examination
requirements and forms of
examination
|
Oral exam, tests
|
Media employed
|
Video lectures, Audio books, presentations
|
Reading list
| -
Rogozhin V.V., Rogozhina T.V. Practical work on biochemistry of milk and dairy products. St. Petersburg, 2008 (in russian)
-
Shalygina A.M., Kalinina L.V. General technology of milk and dairy products. Moscow, Kolos, 2007, 200 p. (in russian)
-
Kalinina L.V., Ganina V.I., Dunchenko N.I. Technology whole milk. St. Petersburg. 2008 (in russian)
-
Bredikhin S.A., Jurin V.N. Technique and production technology of butter and cheese. M. 2007 (in russian)
|
|
|
Module designation
|
Module 7. Industrial and Food Biotechnology
Food Biotechnology
|
Module level, if applicable
|
Basic Professional Modules
|
Code, if applicable
|
FB 3320
|
Subtitle, if applicable
|
-
|
Courses, if applicable
|
Course
|
Credits
|
Food Biotechnology
|
3
|
|
2 lectures+1 Lab
|
Semester(s) in which the module is taught
|
5 semester
|
Person responsible for the module
|
Dr., Professor Mukasheva T.D.
associate Professor, candidate of Biological Science Kayirmanova G.K.
|
Lecturer
|
Dr., Professor Mukasheva T.D.
|
Language
|
Russian, Kazakh, English
|
Relation to curriculum
|
Vocational
|
Type of teaching, contact Hours
|
Lecture
|
Practicum
|
Seminars
|
30 hours per semester
2 hours per week
|
15 hours per semester
1 hour per week
|
-
|
|
Workload
|
Lectures
|
Guided self-study
|
Self-study
|
30 hours per semester
2 hours per week
|
-
|
60 hours per semester (4 hours per week)
|
Credit points
|
3 credit = 5 ECTS
|
Requirements according to
the examination regulations
|
50% of overall scores
|
Recommended prerequisites
|
BMB 2414 Basics of Microorganisms Biotechnology
|
Module objectives/intended
learning outcomes
|
Knowledge
|
Skills
|
Competences
|
The student will be know about: microflora of raw materials and food products, as well as the evils of food microbiology with nature; the role of microorganisms in food processing raw material in the manufacture of food products; the technologies of special purpose products.
Remember
the basic concepts, definitions, the terms used in food biotechnology, bases of quality and production technologies of food from raw materials of an animal and a phytogenesis, including on the basis of bioprocessing methods
Understand
The role of microorganisms in processing of food raw materials and in production of foodstuff, technology of food from vegetable and animal raw materials
|
To own: the methods of microbiological testing of raw materials and food products; the use of different methodological fundamentals of biotechnology techniques in the food industry.
Apply
to be able to use the skills acquired on laboratory researches for carrying out microbiological control of food productions.
Analysis
to be able to analyze and predict changes of supply and demand of biotechnological production;
|
Be able to: to apply the theoretical and practical skills in the use of biotechnological methods and techniques in the production of food; to carry out the control of food production and products;
Evaluate
biotechnological processes when processing raw materials vegetable and
animal origin
Create
features of processing of vegetable and animal raw materials
with application of microorganisms and products of their metabolism
|
Content
|
The purpose of the course is the generation of knowledge about the use of biotechnological processes in the processing of raw materials of plant or animal origin; industrial use of enzyme preparations, food supplements and biologically active substances in food production, the technologies of special purpose products, on the basis of quality and food safety significance of microorganisms in damage Food and requirements of sanitation and hygiene in the food industry, the formation of practical skills in the organization of food production with the use of biotechnology.
|
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
|
Media employed
|
Video lectures, Audio books, presentations
|
Reading list
| -
Rogov I.A., Dunchenko N.I., Poznyakovsky V.M., Berdutina A.V., Kuptsova S.V. Safety of food raw materials and food products. Novosibirsk, 2007 (in russian)
-
Dunchenko N.I., Khramtsov A.G., Makeev I.A., etc. Expertise of food and raw food. Milk and dairy raw materials. Novosibirsk 2007 (in russian)
-
Modern microbiology. Prokaryotes (in 2 volumes). Ed. G. Drevsa, G. Shlegelya etc. Academic Press, 2005. (in english)
|
Module designation
|
Module 8. Methodology and Biotechnology of Animals and Plants
Methodology of Animal Biotechnology
|
Module level, if applicable
|
Basic Professional Modules
|
Code, if applicable
|
MAB 3318
|
Subtitle, if applicable
|
-
|
Courses, if applicable
|
Course
|
Credits
|
Methodology of Animal Biotechnology
|
2
|
|
1 lectures+1 Lab per week
|
Semester(s) in which the module is taught
|
5 semester
|
Person responsible for the module
|
PhD, Associate Professor Zhumabaeva B.A.
|
Lecturer
|
PhD, Associate Professor Zhumabaeva B.A., PhD, Associate Professor Dzhangalina E.D.
|
Language
|
Russian, Kazakh, English
|
Relation to curriculum
|
Vocational
|
Type of teaching, contact Hours
|
Lecture
|
Practicum
|
Seminars
|
15 hours per semester (1 hours per week)
|
15 hours per semester (1 hours per week)
|
-
|
|
Workload
|
Lectures
|
Guided self-study
|
Self-study
|
15 hours per semester (1 hours per week)
|
|
30 hours per semester (2 hours per week)
|
Credit points
|
3 credits =5 ECTS
|
Requirements according to
the examination regulations
|
It is necessary to have knowledge of basic principles used in methodology of animal biotechnology.
|
Recommended prerequisites
|
BAB 2415 Basics of Animal Biotechnology
|
Module objectives/intended
learning outcomes
|
Knowledge
|
Skills
|
Competences
|
Artificial insemination, reproductive, embryonic and therapeutic cloning, genetic transformation, markers and selective systems, cryopreservation of gametes and embryos, applied aspects of cellular and embryogenetic engineering, etc.
Remember:
general biological basis of Animal Biotechnology, principles of cloning and genetic transformation of somatic and germ cells of animals;
Understand:
application of biotechnology techniques in the science and practice of animal breeding and medicine.
|
Methods of cultivation of zygotes in vitro, determining the viability of eggs, fertilization of oocytes, genetic transformation of animal cells,
production of transgenic animals, preclinical testing.
Apply:
practical skills for the treatment of major animal objects - drosophila, mouse, rabbit, sheep; microscopic technique, laboratory equipment, and surgical instruments;
|
Ability to design experiments and conduct research on animal biotechnology with the latest techniques.
Evaluate:
theoretical knowledge;
Create:
experiments on animal biotechnology
Analysis:
experimental approaches to cell and embryonic engineering.
.
|
Content
|
The course will contain the following topics:
Methodology of Animal Biotechnology:
-
Object and purpose of the course "Methodology of animal biotechnology" and the theoretical basis of animal biotechnology.
-
Artificial insemination. Methods of cultivation of zygotes in vitro, methods for determining the viability of eggs. Fertilization of oocytes in vivo and in vitro, the medium and conditions.
-
The history of research on embryo transfer and synchronization of sexual cycles of donor and recipient.
-
Interspecies embryo transfer and embryo transfer value in breeding, medicine and basic science.
-
Chimera mammals and history research on the production of chimeras.
-
Animal cloning and the history of research on animal cloning. Cloning method using nuclear transfer.
-
Reproductive and embryonic cloning. Cloning embryos, methods for monozygotic twins and embryonic cells in vitro.
-
Therapeutic cloning. Stem cells and prospects for use in practice.
-
Genetic transformation. Research stages of genetic transformation of animal cells.
-
Markers and selective system used to isolate clones of genetically transformed cells. types of markers.
-
Study transformants and the efficiency and stability of the genetic transformation. The main problem for generating transgenic organisms and ways to overcome.
-
Cryopreservation of gametes and embryos. Main directions of freezing oocytes and mammalian embryos: slow and fast freezing: cryoprotectants and temperature regimes. Use in medicine.
-
Applied aspects of cellular and embryogenetic engineering, development prospects of biotechnology: the production of transgenic animals with accelerated growth, animal-producing monoclonal and polyclonal antibodies.
-
Applied aspects of cellular and embryogenetic engineering, development prospects of biotechnology (continued): basic principles and approaches to gene therapy. Preclinical testing: Experiments carried out in vitro and on laboratory animals.
-
Concluding remarks.
|
Study and examination
requirements and forms of
examination
|
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
|
Media employed
|
Video lectures, Audio books, presentations
|
Reading list
|
References:
-
Seitov Z.S. Biochemistry, Almaty 2000 (in Russian, in kazakh)
-
Glik M, PasternakJ. Molecular and Cell Biotechnology. M., 2004 (in english)
|
Do'stlaringiz bilan baham: |
