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Загальна кількість знайдених документів : 193
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Antonomov M. Yu. Algorithms of multifactorial regression modeling in ecological and hygienic studies // Кибернетика и вычисл. техника. - 2017. - № 4.
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Тарабан Д. А. Ca2+- і АФК-залежне індукування теплостійкості проростків пшениці екзогенним мелатоніном // Доп. НАН України. - 2022. - № 4.
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Kovalchuk M. V. Colonization capacity and monitoring of the biocontrol agent Pseudomonas sp. IMBG163 on wheat roots // Біополімери і клітина. - 2004. - 20, № 6.
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Yakymchuk R. A. Cytogenetic disorders in Triticum aestivum L. cells affected by radionuclide contamination of water reservoirs in the alienation zone of Chornobyl NPP // Biopolymers and Cell. - 2018. - 34, № 2.
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Bannikova M. A. Effect of ceftriaxone and Timentin antibiotics on morphogenetic processes in the in vitro culture of bread wheat Triticum aestivum L. // Biopolymers and Cell. - 2016. - 32, № 5.
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Kolupaev Yu. E. Effect of cold hardening on resistance of wheat seedlings to hydrogen peroxide and iron (II) ions action. I. Participation of low-molecular protectors // Вісн. Харків. нац. аграр. ун-ту. Сер. Біологія. - 2015. - Вип. 2.
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Shahryari R. Effect of potassium humate on gluten quantity of wheat (Triticum aestivum L.) genotypes under drought stress // Microbiology and Biotechnology. - 2010. - 2, № 2.
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Roche J. Effects of the electromagnetic field of Wi-Fi systems and experimental gadget M4 on growth, development and photosynthesis of wheat // Інтродукція рослин. - 2020. - № 85/86.
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Kovtunovych G. Enhancing the internal plant colonization rate with endophytic nitrogen-fixing bacteria // Биополимеры и клетка. - 1999. - 15, № 4.
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Kolupaev Yu. E. Induction of plant cells heat resistance by hydrogen sulfide donor is mediated by H2O2 generation with participation of NADPH oxidase and superoxide dismutase // The Ukr. Biochem. J.. - 2017. - 89, № 4.
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Kolupaev Yu. E. Induction of plant cells heat resistance by hydrogen sulfide donor is mediated by H2O2 generation with participation of NADPH oxidase and superoxide dismutase // The Ukr. Biochem. J.. - 2017. - 89, № 4.
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Karpets Yu. V. Influence of exogenous calcium and its antagonists on nitric oxide content in roots of wheat plantlets // Вісн. Харків. нац. аграр. ун-ту. Сер. Біологія. - 2015. - Вип. 1.
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Didyk N. Interactive effect of simulated acid rain, calcium silicate, and <$E bold gamma>-aminobutyric acid on physiological processes in corn and wheat // Plant Introduction. - 2022. - № 95/96.
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Kolupaev Yu. E. Phenylalanine ammonia-lyase activity and content of flavonoid compounds in wheat seedlings at the action of hypothermia and hydrogen sulfide donor // The Ukr. Biochem. J.. - 2018. - 90, № 6.
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Lakhneko O. R. Polymorphism of some transcription factor genes related to drought tolerance in wheat // Biotechnologia Acta. - 2018. - 11, № 2.
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Mоlodchenkova O. O. Purification and properties of lipoxygenase from wheat seedlings infected by Fusarium graminearum and treated by salicylic acid // The Ukr. Biochem. J.. - 2016. - 88, № 6.
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Martynenko O. I. Relationship between RNA/DNA ratio, growth rate and accumulation of selenium in the cells of wheat leaves under the influence of minerals analcime and trepel // Ukr. Biochem. J.. - 2014. - 86, № 5.
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Gryshko V. M. Role of antioxidants in the protection against the combined effect of Cd, Zn, and Ni in wheat // Доп. НАН України. - 2016. - № 5.
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Boiko I. Salicylic acid as growth regulator for cadmium-stressed plants // Вісн. Львів. ун-ту. Сер. біол.. - 2012. - Вип. 58.
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Karpets Yu. V. Signal mediators at induction of heat resistance of wheat plantlets by short-term heating // The Ukr. Biochem. J.. - 2015. - 87, № 6.
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