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CHARACTERIZATION OF TRANSGENIC GROUNDNUT (Arachis hypogaea L.) PDF

174 Pages·2017·4.89 MB·English
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CHARACTERIZATION OF TRANSGENIC GROUNDNUT (Arachis hypogaea L.) EXPRESSING THE ZAT12 TRANSCRIPTION FACTOR GENE UNDER ABIOTIC STRESSES By ABHAY KUMAR (Registration No-J4-01014-2012) M. Sc. (Agri. Biotech) DEPARTMENT OF BIOTECHNOLOGY COLLEGE OF AGRICULTURE JUNAGADH AGRICULTURAL UNIVERSITY JUNAGADH-362 001 FEBRUARY - 2017 CHARACTERIZATION OF TRANSGENIC GROUNDNUT (Arachis hypogaea L.) EXPRESSING THE ZAT12 TRANSCRIPTION FACTOR GENE UNDER ABIOTIC STRESSES A THESIS SUBMITTED TO JUNAGADH AGRICULTURAL UNIVERSITY IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE AWARD OF THE DEGREE OF DOCTOR OF PHILOSOPHY IN PLANT MOLECULAR BIOLOGY AND BIOTECHNOLOGY BY ABHAY KUMAR (Registration No-J4-01014-2012) M. Sc. (Agri. Biotech) DEPARTMENT OF BIOTECHNOLOGY COLLEGE OF AGRICULTURE JUNAGADH AGRICULTURAL UNIVERSITY JUNAGADH-362 001 FEBRUARY - 2017 Abstract DEPARTMENT OF BIOTECHNOLOGY Name of the student Major Guide Abhay Kumar Radhakrishnan T. CHARACTERIZATION OF TRANSGENIC GROUNDNUT (Arachis hypogaea L.) EXPRESSING THE ZAT12 TRANSCRIPTION FACTOR GENE UNDER ABIOTIC STRESSES ABSTRACT Key words: transgenic groundnut, ZAT12, abiotic stress, drought, salinity Groundnut (Arachis hypogaea L.), is an important legume crop and India is one among the leading producers of groundnut worldwide. The various type of abiotic stresses ensue major environmental constraints in groundnut production. The present study was undertaken with the primary objectives to characterize the transgenic groundnut plants for integration, expression and inheritance of BcZAT12 transcription factor gene and to evaluate the transgene expression under various abiotic stresses under in vitro and glasshouse conditions. The experimental transgenic test plants of Arachis hypogaea, was developed through Agrobacterium-mediated transformation of groundnut cv. GG20 at Biotechnology Laboratory, ICAR-DGR, Junagadh. PCR screening of transgenics using BcZAT12 and nptII gene- specific primers gave expected amplification of approximately 486bp and 750bp, respectively. The presence of transgene in twelve transgenic events (T3) was confirmed by Dot blot analysis. PCR analysis of T2 generation plants showed segregation of gene followed Mendelian pattern of inheritance. RT-PCR results showed that transgenic plants showed induced expression under soil moisture deficit stress under stress-inducible Lea promoter. The pattern of gene expression were analyzed at transcript level through real time PCR (qPCR) showed differential pattern of expression under PEG- induced drought stress, NaCl- induced salinity stress and progressive soil moisture deficit stress. Under various abiotic stresses, transgenic events showed delayed and less wilting of leaves, improved physio-biochemical traits such as accumulation of proline; enhanced osmotic adjustment; improved water and total chlorophyll retention capacities; less electrolytic leakage; and speedy recovery. Key biochemical parameters like activity of antioxidants enzymes, stress metabolites content and growth related parameters were in significantly better status in transgenic lines. qPCR based differential expression studies identified the level of induction of downstream target stress-inducible genes. The better performance of the transgenic lines of BcZAT12 quantified in terms of physio-biochemical characterization, growth associated parameters and phenotypic observations under various abiotic stresses gives us the confidence to claim that BcZAT12 expression improved the tolerance of the transgenic lines compared with the wild type plants. ACKNOWLEDGEMENT I have great privilege to express my deep sense of gratitude to my Major Advisor, Dr. Radhakrishnan T., Director, ICAR-Directorate of Groundnut Research, Junagadh for his keen interest, most valuable and inspiring guidance, constructive criticisms and constant encouragement throughout the course of the investigation. His special concern for aesthetics and precision are remarkable and giving the student freedom to satisfy their queries is certainly appreciable. I would like to express my gratitude to my committee members especially to Dr. D. N. Vakharia, Professor, Department of Biochemistry for the positive motivation, encouragement and guidelines provided. I also express gratitude towards other members Dr. M. K. Mandavia, Professor, Department of Biotechnology, College of Agriculture, Junagadh Agricultural University, Junagadh and Dr. S. M. Upadhyay, Professor and Head, Dept. of Agril. Statistics, College of Agriculture, Junagadh Agriculture University, Junagadh. I express a deep sense of gratitude to Dr. B. A. Golakiya, Professor and Head, Department of Biotechnology for his full pledged co-operation, guidance, continued inspiration and valuable suggestions. My PhD Thesis would not have seen the right completion and that too in right time, had it not been the able and untiring support and advices from Dr. G. P. Mishra and Dr. J. R. Dobaria from whom I learnt a lot. I am indebted to Mr. B. K. Singh who made the ground work of the present study; he was instrumental in helping me make the foundation of the study. It is my great pleasure to extend profuse thanks to the authorities of the Junagadh Agricultural University, Dr. N. C. Patel, former Vice Chancellor, Dr. A. R. Pathak, Vice Chancellor, Dr. V. P. Chovatia, Director of Research, Dr. A. Y. Desai, Former Director of Research, JAU, Junagadh and Dr. A. V. Barad, Principal and Dean, College of Agriculture, JAU, Junagadh for providing necessary facilities for conducting the research work. I want to extend my gratitude to the Library members for their kind and instant services. I’m also thankful to ‘C’ branch staff specially Gordhanbhai and Makadiabhai for co-operative and quick processing of academic records. I am thankful and indebted for the friendly help, guidance and encouragement rendered to me by my batchmates, Hiren and Abhinandan. My sincere thanks goes to Tanmoy, Bhagwat, Kiran, Viral, Sahil, Tejas, Suhail, Vivekanand, Binal, Sneha and Bindu. The cheerful atmosphere and unconditional support extended by all my lab staff Mansukhbhai and Shekhbhai helped create a homely environment in the lab. I am indebted to my parents for their selfless love and faith in me. I would also like to thank my elder brothers Dr. Ajay Kumar and Dr. Akshay Prakash for encouraging me at each and every step. I would like to thank Dr. Pratibha Singh for being my friend, philosopher and guide and for teaching me: patience has its rewards! Lastly but not the least, I sincerely acknowledge the financial support by ICAR throughout the period. The other indirect financial helps granted to the laboratory by DBT and ICAR funded projects also have benefited me and gratefully acknowledged. All might have not been mentioned but none is forgotten. Place: Junagadh Date: 25/01/2016 (Abhay Kumar)

Description:
ABSTRACT. Key words: transgenic groundnut, ZAT12, abiotic stress, drought, salinity . groundnut. 56-57. 3.16 Gene expression study of abiotic stress related genes. 57-58. 3.17 Bioinformatics software used. 58. 3.18 Statistical analysis. 58. IV Smith, I.K.; Vierheller, T.L. and Thorne, C.A. 1988.
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