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Phytohormones are known for their pivotal roles in promoting normal growth and development of the plants and contributing to the mechanism of defense. Although an over simplification, however, they may be categorized as stress specific and growth promoting. SA and JA/Ethylene are implicated in stress responses while auxins, cytokinins and gibberellins are involved in developmental processes. Phytohormones from the above perspective got much attention in the last few decades; however their reciprocal role is currently in focus. It is because of the reason that plant pathogens cause overall hormonal imbalance at host pathogen interface and alter host physiology for the sake of pathogenecity. Despite their importance in growth and development, cytokinins are among the most neglected phytohormones that are usually noticed as consequence rather than a cause of pathogen infection. Results presented in this thesis are based on the hypothesis that elevated levels of CKs embody plants with resistance against hemibiotrophic pathogens. To explore a connection between the spread of P. syringae and its tobacco host, CKs over producing transgenic plants were investigated whereby bacterial IPT gene was expressed under the control of pathogen inducible, tetracycline inducible and developmentally inducible promoters. To further validate the out-come of transgenic plants, various types of cytokinins were exogenously fed to detached tobacco leaves. Mentioned transgenics and exogenous CKs feeding approaches unanimously resulted in, “more cytokinins less disease symptoms” and vice versa. This state of cytokinins mediated resistance was further substantiated with various cellular, signaling, biochemical and microbial approaches wherein levels of SA and JA remained unaffected. Conversely, PR1 gene expression was strongly up-regulated in enhanced cytokinins accumulating samples. Moreover, less accumulation of ROS was observed in IPT expressing sites of the plants as compared to their corresponding controls. Additionally, we neither noticed any direct effect of cytokinins on the growth of P. syringae pv. tabaci nor found presence of anti-microbial peptides in cytokinins enriched extracts. Interestingly, enhanced accumulation of phtyoalexins in elevated CKs status of the plant proved to be a possible gesture in jeopardizing the spread of pathogen. Contrarily, no reduction was observed in the spread of fungal necrotrophic pathogen Sclerotinia sclerotiorum when leaves of elevated CKs were inoculated. Besides host-pathogen interaction in perspective of elevated cytokinins, impact of modulated sugar status of the plant on the spread of pathogen was also investigated. For this purpose, previously generated modulated invertase enzyme tobacco transgenic plants were analyzed. We showed that repression and de-repression of CIN1 gene under the control of tetracycline inducible-promoter did not affect the growth of P. syrinage pv. tabaci in Tet::CIN1 transgenic plants. Moreover, invertase inhibitor tobacco lines expressing NtCIF gene under the control of the same promoter failed to exhibit differential pathogenic responses in induced and non induced status of the plant. Similar was the case of tomato transgenic plants expressing NtCIF gene under the control of invertase gene Lin6 promoter in Lin6:: NtCIF plants for P.syringae pv. tomato DC 3000. Interestingly, when challenged Lin6:: NtCIF tomato plants with Botrytis cinerea, severe disease symptoms were observed on transgenic leaves as compared to control plants. To dissect a potential link between cytokinins and sugar metabolism with its effect on the growth of pathogen, invertase transgenic plants with elevated CKs were probed. When expressed exogenous IPT gene under the control of pathogen inducible promoter (4xJERE::IPT) in transgenic background of Tet::CIN1, we observed localized differences in symptom development for P.syringae pv. tabaci. Similarly, when exogenously fed with kinetin, detached leaves of Tet::CIN1 exhibited retarded growth of P.syringae pv. tabaci as compared to the tetracycline induced leaves. These results led to the conclusion that extracellular invertase may not play an essential role in cytokinins mediated disease resistance against hemibiotrophic pathogens.