Кенжебаева Сауле Сагиндыковна
The point for questioning teaching staff through the eyes of students - {point} out of 5.0

Place of work
Факультет: faculty of biology and biotechnology

Кафедра: биотехнологии
Position Профессоp

Educational activities

Disciplines taught
Timetable of classes

 ДсСсСрБсЖмСн
08:00-08:50
09:00-09:50
10:00-10:50
11:00-11:50
12:00-12:50
13:00-13:50
14:00-14:50
15:00-15:50
16:00-16:50
17:00-17:50
18:00-18:50
19:00-19:50
20:00-20:50
21:00-21:50
08:00-08:45
08:55-09:40
09:50-10:35
10:45-11:30
11:50-12:35
12:45-13:30
13:40-14:25
14:35-15:20
15:30-16:15
16:35-17:20
08:00-08:00
08:30-08:30
09:00-09:00
09:30-09:30
10:00-10:00
10:30-10:30
11:00-11:00
11:30-11:30
12:00-12:00
12:30-12:30
13:00-13:00
13:30-13:30
14:00-14:00
14:30-14:30
15:00-15:00
15:30-15:30
16:00-16:00
16:30-16:30
17:00-17:00
17:30-17:30
18:00-18:00
18:30-18:30
19:00-19:00
08:30-09:20
09:30-10:20
10:30-11:20
11:30-12:20
12:30-13:20
13:30-14:20
14:30-15:20
15:30-16:20
16:30-17:20
17:30-18:20
18:30-19:20
19:30-20:20
20:30-21:20
21:30-22:20
14:40-15:30
13:20-14:10
19:30-19:30
20:00-20:00
18:20-19:10
13:40-14:30
15:40-16:30
16:40-17:30
17:40-18:30
16:20-17:10
17:20-18:10
16:15-17:05
17:15-18:10
18:10-19:00
18:40-19:30
19:20-20:10
14:20-15:10
15:20-16:10
16:20-17:10
16:15-17:05
17:15-18:05
18:10-19:00
Educational materials

Discipline name Headline Description
Methods of Molecular Biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Methods of Molecular Biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Methods of Molecular Biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Practical Experience in Cell and Molecular Biotechnology
Modern methods in biotechnology
Modern Methods in Biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Agricultural Biotechnology
Modern Methods in Biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Genetic Engineering of Plants and Biosafety
Basics of Plants Physiology
Biochemistry and Physiology of Plants
Basics of Plants Physiology
Biochemistry and Plant Physiology
Biochemistry and Physiology of Plants
Biochemistry and Physiology of Plants
Risk Management of Transgenes
Biochemistry and Physiology of Plants
Clonal Technology
Clonal Technology
Practical Experience in Cell and Molecular Biotechnology
Risk Management of Transgenes
Basics of Plants Physiology
Risk Management of Transgenes
Risk Management of Transgenes
Risk Management of Transgenes
Biologically Active Compounds
Practical Experience in Cell and Molecular Biotechnology
Basics of Plants Physiology
Practical Experience in Cell and Molecular Biotechnology
Practical Experience in Cell and Molecular Biotechnology
Biologically Active Compounds
Biochemistry and Physiology of Plants
Practical Experience in Cell and Molecular Biotechnology
Biologically Active Compounds
Basics of Plants Physiology
Clonal Technology
Plant Physiology
Clonal Technology
Practical Experience in Cell and Molecular Biotechnology
Practical Experience in Cell and Molecular Biotechnology
Risk Management of Transgenes
Basics of Plants Physiology
Biochemistry and Physiology of Plants
Biologically Active Compounds
Risk Management of Transgenes
Clonal Technology
Risk Management of Transgenes
Basics of Plants Physiology
Risk Management of Transgenes
Biochemistry and Physiology of Plants
Basics of Plants Physiology
Biologically Active Compounds
Biologically Active Compounds
Plant and Animal Physiology
Plant and Animal Physiology
Biochemistry and Physiology of Plants
Basics of Plants Physiology
Risk Management of Transgenes
Basics of Plants Physiology
Risk Management of Transgenes
Biochemistry and Physiology of Plants
Biochemistry and Physiology of Plants
Biologically Active Compounds
Practical Experience in Cell and Molecular Biotechnology
Practical Experience in Cell and Molecular Biotechnology
Biologically Active Compounds
Risk Management of Transgenes
Biologically Active Compounds
Biologically Active Compounds
Basics of Plants Physiology
Biochemistry and Physiology of Plants
Plant and Animal Physiology
Plant Physiology and Biotechnology
Biochemistry and Physiology of Plants
Proteomical Technologies
Physiological foundations of plant productivity
Molecular biotechnology of pro- and eukaryots
Molecular biotechnology of pro- and eukaryots
Modern methods in biotechnology
Plant Physiology and Biotechnology
Basic of Physiology
Regulation of Genome
Molecular-biochemical Markers of Plant Diseases
Physiological foundations of plant productivity
Modern methods in biotechnology
Biotechnology of Agricultural Plants
Basics of Plant Physiology
Biotechnology of Agricultural Plants
Genetic Engineering of Plants and Biosafety
Modern Methods in Biotechnology
Basics of Biotechnology
Plant and Animal Physiology
Waste Management
Cell Culture and Biotechnology for Tissue Engineering
Methods of Molecular Biotechnology
Molecular-biochemical Markers of Plant Diseases
GMO and Organic Food Safety
Modern methods in biotechnology
Modern methods in biotechnology
Waste Management
Methods of Molecular Biotechnology
Agricultural Biotechnology
Agricultural Biotechnology
Physiological foundations of plant productivity
Agricultural Biotechnology
Plant Physiology and Biotechnology
Basic of Physiology
Risk Management of Transgenes
Methods of Molecular Biotechnology
Regulation of Genome
Agricultural Biotechnology
Plant Physiology
Modern Methods in Biotechnology
Biotechnology of Agricultural Plants
Biochemistry and Plant Physiology
Agricultural Biotechnology
Molecular-biochemical Markers of Plant Diseases
Risk Management of Transgenes
Methods of Molecular Biotechnology
Genetic Engineering of Plants and Biosafety
Modern methods in biotechnology
Basics of Plant Physiology
Plant Physiology
Agricultural Biotechnology
Agricultural Biotechnology
Agricultural Biotechnology
Plant Physiology and Biotechnology
Methods of Molecular Biotechnology
Basic of Physiology
Cell Culture and Biotechnology for Tissue Engineering
Lab. Work 13. A Protocol Guide for the N. crassa Yeast Artificial Chromosome (YAC) Library
Basic of Physiology
Plant Physiology and Biotechnology
Agricultural Biotechnology
GMO and Organic Food Safety
Modern methods in biotechnology
Waste Management
Cell Culture and Biotechnology for Tissue Engineering
Genetic Engineering of Plants and Biosafety
Plant and Animal Physiology
Basics of Biotechnology
Methods of Molecular Biotechnology
Molecular biotechnology of pro- and eukaryots
Molecular-biochemical Markers of Plant Diseases
Biotechnology of Agricultural Plants
Genetic Engineering of Plants and Biosafety
Physiological foundations of plant productivity
Modern methods in biotechnology
Physiological foundations of plant productivity
Biochemistry and Plant Physiology
Cell Culture and Biotechnology for Tissue Engineering
Risk Management of Transgenes
Biochemistry and Plant Physiology
Cell Culture and Biotechnology for Tissue Engineering
Basics of Plant Physiology
Molecular-biochemical Markers of Plant Diseases
Modern Methods in Biotechnology
Biotechnology of Agricultural Plants
Biochemistry and Plant Physiology
Methods of Molecular Biotechnology
Biotechnology of Agricultural Plants
Basics of Biotechnology
Plant and Animal Physiology
Molecular-biochemical Markers of Plant Diseases
Methods of Molecular Biotechnology
Risk Management of Transgenes
Plant and Animal Physiology
Waste Management
Modern methods in biotechnology
Agricultural Biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Basic of Physiology
Methods of Molecular Biotechnology
Modern methods in biotechnology
Methods of Molecular Biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Agricultural Biotechnology
Agricultural Biotechnology
Molecular-biochemical Markers of Plant Diseases
Physiological foundations of plant productivity
Regulation of Genome
Waste Management
Basics of Biotechnology
Modern Methods in Biotechnology
Biochemistry and Plant Physiology
Modern methods in biotechnology
Regulation of Genome
Risk Management of Transgenes
GMO and Organic Food Safety
Cell Culture and Biotechnology for Tissue Engineering
The questions of RC 2
Cell Culture and Biotechnology for Tissue Engineering
Modern Methods in Biotechnology
Seminars
Modern methods in biotechnology
Plant Physiology
Risk Management of Transgenes
GMO and Organic Food Safety
Plant Physiology and Biotechnology
Plant and Animal Physiology
Cell Culture and Biotechnology for Tissue Engineering
Basics of Plant Physiology
Agricultural Biotechnology
Agricultural Biotechnology
GMO and Organic Food Safety
Biochemistry and Plant Physiology
Modern methods in biotechnology
Agricultural Biotechnology
Biotechnology of Agricultural Plants
Basics of Plant Physiology
Proteomical Technologies
Modern methods in biotechnology
Methods of Molecular Biotechnology
Biotechnology of Agricultural Plants
Modern Methods in Biotechnology
Biochemistry and Plant Physiology
Methods of Molecular Biotechnology
Modern methods in biotechnology
Modern methods in biotechnology
Proteomical Technologies
Genetic Engineering of Plants and Biosafety
Cell Culture and Biotechnology for Tissue Engineering
Cell Culture and Biotechnology for Tissue Engineering
Basics of Biotechnology
Waste Management
Plant and Animal Physiology
Modern methods in biotechnology
Modern methods in biotechnology
Plant Physiology and Biotechnology
Molecular-biochemical Markers of Plant Diseases
Modern methods in biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Methods of Molecular Biotechnology
Biochemistry and Plant Physiology
Proteomical Technologies
Plant Physiology
Basic of Physiology
Modern Methods in Biotechnology
Agricultural Biotechnology
Risk Management of Transgenes
Cell Culture and Biotechnology for Tissue Engineering
Lecture 15. STRATEGIES TO ENGINEER TISSUESLecture 15. STRATEGIES TO ENGINEER TISSUES
Cell Culture and Biotechnology for Tissue Engineering
Lecture 13. RNA transfection in tissue engineering
Agricultural Biotechnology
Plant Physiology
Genetic Engineering of Plants and Biosafety
Cell Culture and Biotechnology for Tissue Engineering
Physiological foundations of plant productivity
Regulation of Genome
Agricultural Biotechnology
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Biochemistry and Plant Physiology
Agricultural Biotechnology
Physiological foundations of plant productivity
Basic of Physiology
Modern methods in biotechnology
Basics of Biotechnology
Modern methods in biotechnology
Waste Management
Biotechnology of Agricultural Plants
Methods of Molecular Biotechnology
Plant and Animal Physiology
Molecular-biochemical Markers of Plant Diseases
GMO and Organic Food Safety
Plant and Animal Physiology
Biotechnology of Agricultural Plants
Modern methods in biotechnology
Molecular-biochemical Markers of Plant Diseases
Modern methods in biotechnology
Agricultural Biotechnology
Basics of Plant Physiology
Agricultural Biotechnology
Basic of Physiology
Plant Physiology and Biotechnology
Cell Culture and Biotechnology for Tissue Engineering
GMO and Organic Food Safety
Basics of Biotechnology
Basic of Physiology
Genetic Engineering of Plants and Biosafety
Agricultural Biotechnology
Risk Management of Transgenes
Basics of Plant Physiology
Basics of Plant Physiology
Risk Management of Transgenes
Risk Management of Transgenes
Modern methods in biotechnology
Genetic Engineering of Plants and Biosafety
Plant and Animal Physiology
Modern Methods in Biotechnology
Molecular-biochemical Markers of Plant Diseases
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Genetic Engineering of Plants and Biosafety
Physiological foundations of plant productivity
Biochemistry and Plant Physiology
Biotechnology of Agricultural Plants
Plant and Animal Physiology
Physiological foundations of plant productivity
Physiological foundations of plant productivity
Physiological foundations of plant productivity
Biotechnology of Agricultural Plants
Modern methods in biotechnology
Physiological foundations of plant productivity
Biotechnology of Agricultural Plants
Agricultural Biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Cell Culture and Biotechnology for Tissue Engineering
Methods of Molecular Biotechnology
Physiological foundations of plant productivity
Biotechnology of Agricultural Plants
Biotechnology of Agricultural Plants
Modern methods in biotechnology
Physiological foundations of plant productivity
Modern methods in biotechnology
Basics of Plant Physiology
Basics of Biotechnology
Modern methods in biotechnology
Plant Physiology
Proteomical Technologies
Waste Management
Physiological foundations of plant productivity
Biotechnology of Agricultural Plants
Modern methods in biotechnology
Regulation of Genome
Plant Physiology and Biotechnology
Basics of Plant Physiology
Cell Culture and Biotechnology for Tissue Engineering
Genetic Engineering of Plants and Biosafety
Modern methods in biotechnology
Cell Culture and Biotechnology for Tissue Engineering
Modern methods in biotechnology
Risk Management of Transgenes
Methods of Molecular Biotechnology
Proteomical Technologies
Methods of Molecular Biotechnology
Methods of Molecular Biotechnology
Biochemistry and Physiology of Plants
Biotechnology of Agricultural Plants
Molecular-biochemical Markers of Plant Diseases
Biochemistry and Plant Physiology
Agricultural Biotechnology
Agricultural Biotechnology
Agricultural Biotechnology
Agricultural Biotechnology
Methods of Molecular Biotechnology
Biochemistry and Physiology of Plants
Molecular-biochemical Markers of Plant Diseases