Main / Biology and Biotechnology / Biotechnology / Кенжебаева Сауле Сагиндыковна
Кенжебаева Сауле Сагиндыковна
Position Профессоp
First higher education
Educational institution | Квалификация | Expiration date |
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МГУ имени М.В.Ломоносова | Высшее | 1976 |
Academic degree
Academic rank
Name of academic title | Date of assignment |
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Профессор | 14/11/2012 |
СНС | 23/01/1990 |
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Methods of Molecular Biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Methods of Molecular Biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Methods of Molecular Biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Practical Experience in Cell and Molecular Biotechnology |
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Modern methods in biotechnology |
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Modern Methods in Biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Agricultural Biotechnology |
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Modern Methods in Biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Genetic Engineering of Plants and Biosafety |
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Basics of Plants Physiology |
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Biochemistry and Physiology of Plants |
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Basics of Plants Physiology |
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Biochemistry and Plant Physiology |
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Biochemistry and Physiology of Plants |
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Biochemistry and Physiology of Plants |
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Risk Management of Transgenes |
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Biochemistry and Physiology of Plants |
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Clonal Technology |
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Clonal Technology |
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Practical Experience in Cell and Molecular Biotechnology |
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Risk Management of Transgenes |
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Basics of Plants Physiology |
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Risk Management of Transgenes |
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Risk Management of Transgenes |
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Risk Management of Transgenes |
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Biologically Active Compounds |
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Practical Experience in Cell and Molecular Biotechnology |
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Basics of Plants Physiology |
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Practical Experience in Cell and Molecular Biotechnology |
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Practical Experience in Cell and Molecular Biotechnology |
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Biologically Active Compounds |
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Biochemistry and Physiology of Plants |
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Practical Experience in Cell and Molecular Biotechnology |
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Biologically Active Compounds |
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Basics of Plants Physiology |
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Clonal Technology |
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Plant Physiology |
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Clonal Technology |
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Practical Experience in Cell and Molecular Biotechnology |
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Practical Experience in Cell and Molecular Biotechnology |
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Risk Management of Transgenes |
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Basics of Plants Physiology |
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Biochemistry and Physiology of Plants |
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Biologically Active Compounds |
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Risk Management of Transgenes |
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Clonal Technology |
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Risk Management of Transgenes |
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Basics of Plants Physiology |
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Risk Management of Transgenes |
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Biochemistry and Physiology of Plants |
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Basics of Plants Physiology |
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Biologically Active Compounds |
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Biologically Active Compounds |
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Plant and Animal Physiology |
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Plant and Animal Physiology |
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Biochemistry and Physiology of Plants |
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Basics of Plants Physiology |
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Risk Management of Transgenes |
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Basics of Plants Physiology |
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Risk Management of Transgenes |
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Biochemistry and Physiology of Plants |
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Biochemistry and Physiology of Plants |
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Biologically Active Compounds |
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Practical Experience in Cell and Molecular Biotechnology |
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Practical Experience in Cell and Molecular Biotechnology |
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Biologically Active Compounds |
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Risk Management of Transgenes |
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Biologically Active Compounds |
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Biologically Active Compounds |
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Basics of Plants Physiology |
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Biochemistry and Physiology of Plants |
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Plant and Animal Physiology |
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Plant Physiology and Biotechnology |
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Biochemistry and Physiology of Plants |
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Proteomical Technologies |
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Physiological foundations of plant productivity |
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Molecular biotechnology of pro- and eukaryots |
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Molecular biotechnology of pro- and eukaryots |
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Modern methods in biotechnology |
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Plant Physiology and Biotechnology |
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Basic of Physiology |
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Regulation of Genome |
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Molecular-biochemical Markers of Plant Diseases |
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Physiological foundations of plant productivity |
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Modern methods in biotechnology |
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Biotechnology of Agricultural Plants |
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Basics of Plant Physiology |
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Biotechnology of Agricultural Plants |
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Genetic Engineering of Plants and Biosafety |
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Modern Methods in Biotechnology |
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Basics of Biotechnology |
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Plant and Animal Physiology |
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Waste Management |
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Cell Culture and Biotechnology for Tissue Engineering |
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Methods of Molecular Biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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GMO and Organic Food Safety |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Waste Management |
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Methods of Molecular Biotechnology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Physiological foundations of plant productivity |
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Agricultural Biotechnology |
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Plant Physiology and Biotechnology |
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Basic of Physiology |
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Risk Management of Transgenes |
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Methods of Molecular Biotechnology |
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Regulation of Genome |
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Agricultural Biotechnology |
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Plant Physiology |
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Modern Methods in Biotechnology |
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Biotechnology of Agricultural Plants |
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Biochemistry and Plant Physiology |
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Agricultural Biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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Risk Management of Transgenes |
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Methods of Molecular Biotechnology |
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Genetic Engineering of Plants and Biosafety |
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Modern methods in biotechnology |
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Basics of Plant Physiology |
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Plant Physiology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Plant Physiology and Biotechnology |
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Methods of Molecular Biotechnology |
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Basic of Physiology |
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Cell Culture and Biotechnology for Tissue Engineering |
Lab. Work 13. A Protocol Guide for the N. crassa Yeast Artificial Chromosome (YAC) Library
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Basic of Physiology |
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Plant Physiology and Biotechnology |
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Agricultural Biotechnology |
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GMO and Organic Food Safety |
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Modern methods in biotechnology |
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Waste Management |
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Cell Culture and Biotechnology for Tissue Engineering |
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Genetic Engineering of Plants and Biosafety |
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Plant and Animal Physiology |
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Basics of Biotechnology |
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Methods of Molecular Biotechnology |
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Molecular biotechnology of pro- and eukaryots |
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Molecular-biochemical Markers of Plant Diseases |
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Biotechnology of Agricultural Plants |
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Genetic Engineering of Plants and Biosafety |
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Physiological foundations of plant productivity |
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Modern methods in biotechnology |
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Physiological foundations of plant productivity |
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Biochemistry and Plant Physiology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Risk Management of Transgenes |
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Biochemistry and Plant Physiology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Basics of Plant Physiology |
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Molecular-biochemical Markers of Plant Diseases |
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Modern Methods in Biotechnology |
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Biotechnology of Agricultural Plants |
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Biochemistry and Plant Physiology |
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Methods of Molecular Biotechnology |
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Biotechnology of Agricultural Plants |
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Basics of Biotechnology |
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Plant and Animal Physiology |
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Molecular-biochemical Markers of Plant Diseases |
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Methods of Molecular Biotechnology |
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Risk Management of Transgenes |
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Plant and Animal Physiology |
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Waste Management |
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Modern methods in biotechnology |
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Agricultural Biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Basic of Physiology |
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Methods of Molecular Biotechnology |
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Modern methods in biotechnology |
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Methods of Molecular Biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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Physiological foundations of plant productivity |
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Regulation of Genome |
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Waste Management |
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Basics of Biotechnology |
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Modern Methods in Biotechnology |
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Biochemistry and Plant Physiology |
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Modern methods in biotechnology |
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Regulation of Genome |
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Risk Management of Transgenes |
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GMO and Organic Food Safety |
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Cell Culture and Biotechnology for Tissue Engineering |
The questions of RC 2
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Cell Culture and Biotechnology for Tissue Engineering |
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Modern Methods in Biotechnology |
Seminars
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Modern methods in biotechnology |
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Plant Physiology |
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Risk Management of Transgenes |
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GMO and Organic Food Safety |
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Plant Physiology and Biotechnology |
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Plant and Animal Physiology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Basics of Plant Physiology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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GMO and Organic Food Safety |
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Biochemistry and Plant Physiology |
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Modern methods in biotechnology |
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Agricultural Biotechnology |
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Biotechnology of Agricultural Plants |
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Basics of Plant Physiology |
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Proteomical Technologies |
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Modern methods in biotechnology |
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Methods of Molecular Biotechnology |
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Biotechnology of Agricultural Plants |
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Modern Methods in Biotechnology |
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Biochemistry and Plant Physiology |
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Methods of Molecular Biotechnology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Proteomical Technologies |
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Genetic Engineering of Plants and Biosafety |
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Cell Culture and Biotechnology for Tissue Engineering |
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Cell Culture and Biotechnology for Tissue Engineering |
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Basics of Biotechnology |
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Waste Management |
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Plant and Animal Physiology |
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Modern methods in biotechnology |
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Modern methods in biotechnology |
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Plant Physiology and Biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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Modern methods in biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Methods of Molecular Biotechnology |
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Biochemistry and Plant Physiology |
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Proteomical Technologies |
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Plant Physiology |
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Basic of Physiology |
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Modern Methods in Biotechnology |
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Agricultural Biotechnology |
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Risk Management of Transgenes |
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Cell Culture and Biotechnology for Tissue Engineering |
Lecture 15. STRATEGIES TO ENGINEER TISSUESLecture 15. STRATEGIES TO ENGINEER TISSUES
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Cell Culture and Biotechnology for Tissue Engineering |
Lecture 13. RNA transfection in tissue engineering
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Agricultural Biotechnology |
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Plant Physiology |
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Genetic Engineering of Plants and Biosafety |
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Cell Culture and Biotechnology for Tissue Engineering |
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Physiological foundations of plant productivity |
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Regulation of Genome |
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Agricultural Biotechnology |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Biochemistry and Plant Physiology |
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Agricultural Biotechnology |
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Physiological foundations of plant productivity |
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Basic of Physiology |
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Modern methods in biotechnology |
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Basics of Biotechnology |
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Modern methods in biotechnology |
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Waste Management |
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Biotechnology of Agricultural Plants |
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Methods of Molecular Biotechnology |
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Plant and Animal Physiology |
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Molecular-biochemical Markers of Plant Diseases |
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GMO and Organic Food Safety |
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Plant and Animal Physiology |
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Biotechnology of Agricultural Plants |
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Modern methods in biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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Modern methods in biotechnology |
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Agricultural Biotechnology |
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Basics of Plant Physiology |
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Agricultural Biotechnology |
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Basic of Physiology |
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Plant Physiology and Biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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GMO and Organic Food Safety |
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Basics of Biotechnology |
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Basic of Physiology |
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Genetic Engineering of Plants and Biosafety |
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Agricultural Biotechnology |
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Risk Management of Transgenes |
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Basics of Plant Physiology |
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Basics of Plant Physiology |
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Risk Management of Transgenes |
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Risk Management of Transgenes |
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Modern methods in biotechnology |
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Genetic Engineering of Plants and Biosafety |
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Plant and Animal Physiology |
|
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Modern Methods in Biotechnology |
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Molecular-biochemical Markers of Plant Diseases |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Genetic Engineering of Plants and Biosafety |
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Physiological foundations of plant productivity |
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Biochemistry and Plant Physiology |
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Biotechnology of Agricultural Plants |
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Plant and Animal Physiology |
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Physiological foundations of plant productivity |
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Physiological foundations of plant productivity |
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Physiological foundations of plant productivity |
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Biotechnology of Agricultural Plants |
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Modern methods in biotechnology |
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Physiological foundations of plant productivity |
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Biotechnology of Agricultural Plants |
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|
Agricultural Biotechnology |
|
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Cell Culture and Biotechnology for Tissue Engineering |
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Cell Culture and Biotechnology for Tissue Engineering |
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Methods of Molecular Biotechnology |
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Physiological foundations of plant productivity |
|
|
Biotechnology of Agricultural Plants |
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Biotechnology of Agricultural Plants |
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Modern methods in biotechnology |
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Physiological foundations of plant productivity |
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Modern methods in biotechnology |
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Basics of Plant Physiology |
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Basics of Biotechnology |
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Modern methods in biotechnology |
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Plant Physiology |
|
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Proteomical Technologies |
|
|
Waste Management |
|
|
Physiological foundations of plant productivity |
|
|
Biotechnology of Agricultural Plants |
|
|
Modern methods in biotechnology |
|
|
Regulation of Genome |
|
|
Plant Physiology and Biotechnology |
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|
Basics of Plant Physiology |
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|
Cell Culture and Biotechnology for Tissue Engineering |
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Genetic Engineering of Plants and Biosafety |
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|
Modern methods in biotechnology |
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Cell Culture and Biotechnology for Tissue Engineering |
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Modern methods in biotechnology |
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Risk Management of Transgenes |
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|
Methods of Molecular Biotechnology |
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Proteomical Technologies |
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Methods of Molecular Biotechnology |
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Methods of Molecular Biotechnology |
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Biochemistry and Physiology of Plants |
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Biotechnology of Agricultural Plants |
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Molecular-biochemical Markers of Plant Diseases |
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Biochemistry and Plant Physiology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Agricultural Biotechnology |
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Methods of Molecular Biotechnology |
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Biochemistry and Physiology of Plants |
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Molecular-biochemical Markers of Plant Diseases |
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Author Documents
18
Citations
130 по 112
documents
h-index
5
Phenotyping and Exploitation of Kompetitive Allele-Specific PCR Assays for Genes Underpinning Leaf Rust Resistance in New Spring Wheat Mutant Lines
Kenzhebayeva, S., Mazkirat, S., Shoinbekova, S., Atabayeva, S., Abekova, A., Omirbekova, N., Doktyrbay, G., Asrandina, S., Zharassova, D., Amirova, A., Serfling, A.
Current Issues in Molecular Biology
46, с. 689-709
1
ЦитированийDetermination of resistance to yellow rust in new breeding mutant lines of spring wheat at adult plant and seedlings stages
Kenzhebayeva, S., Shoinbekova, S., Saifulla, D., Sadykbek, T., Serfling, A.
BIO Web of Conferences
100, с.
0
ЦитированийIron-deficiency response and differential expression of iron homeostasis related genes in spring wheat (Triticum aestivum) mutant lines with increased grain iron content
Kenzhebayeva, S.S., Atabayeva, S.D., Sarsu, F.
Crop and Pasture Science
73, с. 127-137
5
ЦитированийOrgan-specific expression of genes involved in iron homeostasis in wheat mutant lines with increased grain iron and zinc content
Kenzhebayeva, S., Atabayeva, S., Sarsu, F., Abekova, A., Shoinbekova, S., Omirbekova, N., Doktyrbay, G., Beisenova, A., Shavrukov, Y.
PeerJ
10, с.
3
ЦитированийRice Plants (Oryza sativa L.) under Cd Stress in Fe Deficiency Conditions
Atabayeva, S.D., Rakhymgozhina, A.B., Nurmahanova, A.S., Kenzhebayeva, S.S., Usenbekov, B.N., Alybayeva, R.A., Asrandina, S.S., Tynybekov, B.M., Amirova, A.K.
BioMed Research International
2022, с.
4
ЦитированийPhytomanagement: Perspectives of using of phytoremediation technology in Kazakhstan
Atabayeva, S., Kenzhebayeva, S., Alybayeva, R., Asrandina, S., Shoinbekova, S.
E3S Web of Conferences
159, с.
0
ЦитированийMutant Lines of Spring Wheat with Increased Iron, Zinc, and Micronutrients in Grains and Enhanced Bioavailability for Human Health
Kenzhebayeva, S., Abekova, A., Atabayeva, S., Yernazarova, G., Omirbekova, N., Zhang, G., Turasheva, S., Asrandina, S., Sarsu, F., Wang, Y., Borisjuk, N.
BioMed Research International
2019, с.
33
ЦитированийSearching a spring wheat mutation resource for correlations between yield, grain size, and quality parameters
Kenzhebayeva, S.S., Doktyrbay, G., Capstaff, N.M., Sarsu, F., Omirbekova, N.Z., Eilam, T., Tashenev, D.K., Miller, A.J.
Journal of Crop Improvement
31, с. 209-228
13
ЦитированийStudy of storage proteins in endosperm and antioxidant enzyme activity of soft wheat and Brachypodium distachyon infected by Puccinia recondita
Omirbekova, N., Zhussupova, A., Askanbayeva, B., Kenzhebaeva, S., Zhunusbayeva, Z.
International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM
2, с. 767-774
0
ЦитированийEffects of drought on grain quality- and yield-associated traits of advanced wheat mutant lines of spring wheat
Kenzhebayeva, S., Zharassova, D., Sarsu, F., Omirbekova, N., Dauyr, B.
International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM
2, с. 287-294
0
ЦитированийJoint effect of salinization and copper ions on anatomical organization of leaves and roots of wheat's variety (Triticum aestivum L.)
Atabayeva, S.J., Nurmahanova, A., Aidosova, S.S., Akhmetova, A., Kenzhebayeva, S.S., Asrandina, S.S., Alybayeva, R., Shoinbekova, S.A., Beisenova, A.Z.
Advances in Environmental Biology
8, с. 2366-2371
2
ЦитированийAdaptation potential of photosynthesis in wheat cultivars with a capability of leaf rolling under high temperature conditions
Sarieva, G.E., Kenzhebaeva, S.S., Lichtenthaler, H.K.
Russian Journal of Plant Physiology
57, с. 28-36
42
ЦитированийPhotosynthesis performance of non-rolling and flag leaf rolling wheat genotypes during temperature stress
Sariyeva, G., Kenjebaeva, S., Lichtenthaler, H.K.
Acta Botanica Hungarica
51, с. 185-194
4
ЦитированийEcophysiological approach to study of the role of cell-bound peroxidase forms in wheat leaves of different morphology
Sariyeva, G., Kenjebaeva, S.
Acta Botanica Hungarica
45, с. 399-407
0
ЦитированийYield stability and drought resistance in wheat
Kokhmetova, A., Sariyeva, G., Kenjebayeva, S.
Acta Botanica Hungarica
45, с. 153-161
1
ЦитированийThe impact of aluminium on the distribution of cell wall glycoproteins of pea root tip and their Al-binding capacity
Kenjebaeva, S., Yamamoto, Y., Matsumoto, H.
Soil Science and Plant Nutrition
47, с. 629-636
11
ЦитированийAluminum-induced changes in cell-wall glycoproteins in the root tips of al-tolerant and al-sensitive wheat lines
Kenzhebaeva, S.S., Yamamoto, Y., Matsumoto, H.
Russian Journal of Plant Physiology
48, с. 441-447
6
ЦитированийMultiple forms of nitrate reductase and their role in nitrate assimilation in roots of wheat at low temperature or high salinity
Kenjebaeva, S., Rakova, N.
Physiologia Plantarum
93, с. 249-252