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Fiziol. rast. genet., 2020

Information for authors (ukr.) [1] 84-87
Information for authors (Engl.) [1] 88-90
Gudkov I.M. On the occasion of the 50th anniversary of the First All-Union Symposium on Plant Radioblogy at the Institute of Plant Physiology, Academy of Sciences of the Ukrainian SSR [2] 182-!!!
Ivashchenko І.V.1, Rakhmetov D.B.2, Vergun O.M.2 Biochemical features of the introduced population of Artemisia dracunculus L. (Asteraceae) in Central Polissia of Ukraine [2] 169-178
Kosakivska I.V., Vasyuk V.A., Voytenko L.V. Effect of priming with abscisic acid  on the growth and post-stress rehabilitation of the wheat and spelt under conditions of a simulated moderate soil drought [1] 74-83
Kuryata V.G., Shataliuk H.S. The effect of gibberellin and retardants on the redistribution of carbohydrates and nutrients in gooseberry (Grossularia reclinat (L.) Mill) leaves and stems in relation to the culture productivity [1] 31-45
Morgun V.V., Schwartau V.V. To the Opening of the Memorial Plaque to the Academician of the National Academy of Sciences of Ukraine D.M. Grodzynskiy [2] 179-181
Rogach V.V.1, Kiriziy D.A.2, Stasik О.О.2, Rogach T.I.1 Morphogenesis, photosynthesis and productivity of eggplants under the influence of growth regulators with various action mechanisms [2] 152-168
Rybalka O.I.1,2, Morgun V.V.2, Morgun B.V.2,3 Colored grain of wheat and barley — a new breeding strategy of crops with grain of high nutritional value [2] 95-127
Sergeeva L.E., Kurchii V.M., Bronnikova L.I. Compatible osmotic substances — proline and sucrose — in wheat cell lines with combined stress tolerance [1] 64-73
Stasik O.O.1, Pryadkina G.O.1, Kiriziy D.A.1, Sytnik S.K.1, Kapitanska O.S.2, Mikhno A.I.1, Makharinska N.M.1 Effect of foliar treatment with microelement complex, obtained by nanotechnology, on the photosynthetic activity of winter wheat plants under different moisture [1] 46-63
Vedenicheva N.P., Kosakivska I.V. Cytokinins in cereals ontogenesis and adaptation [1] 3-30
Yakymchuk R.А. Grain quality of productive Triticum aestivum L. mutants, induced by technogenic contamination of the environment [2] 140-151
Yaroshko O.M.1, Morgun B.V.1,2, Velyko­zhon L.G.1,2, Gajdošova A.3, Andrushenko O.L.4, Kuchuk M.V.1 PCR analyses of first-generation plants of Amaranthus caudatus L. after «floral-dip» genetic transformation [2] 128-139