Eastern European Scientific Journal

Key words: winter wheat, freezing, frost resistance, β-fruktofuranozidaza, index of resistance, group resistance, survival, low-temperature stress..

Annotation:we studied the variability of hydrolytic activity β-fructofuranosidase enzyme in the seedlings of different frost resistance of winter wheat varieties in the process of cold hardening and freezing. The close linkage between thermal environment, the activity of the enzyme and frost. To estimate the frost resistance of 15 winter wheat varieties of different ecological zones, resulting in on the basis of the indices of resistance divided into 3 groups of resistance: frost resistant index стойкости3,3-4,2 (Photinia, Claudia, Mironovskaya 808, Turquoise, bezenchukskaja 380); srednevozrastnoe – index of resistance of 1.9-2.3 (Cinderella, brunette, Erythrospermum 2/01-3-04, Orenburgskaya 105, Kinel 5); slavomacedonia – index of resistance of 1.0-1.4 (Basalt, Lutesens 2/01-17-04, bezenchukskaja 616, Erythrospermum 12/00-16-04, Santa). Hydrolytic activity of the enzyme is proposed to use as a performance indicator of frost resistance of new winter wheat varieties. The degree of variability of the hydrolytic activity of the enzyme β-fructofuranosidase in seedlings of winter wheat (index of resistance) allows objective evaluation of frost resistance of varieties and breeding material. Using this method has allowed to establish that in Penza research Institute of agriculture of new varieties of winter wheat Claudius and Photinia are highly resistant to low temperatures.The resistance index that expresses the degree of activation of the enzyme β-fructofuranosidase the cooling of the sprouts, it is an objective measure of frost resistance of winter wheat varieties, as evidenced by the survival in the freezing cold room.

Colosa OI. Cryopedological mechanisms of adaptation and resilience: Physiology and biochemistry cultivated plants, 1986, Vol. 18, No. 6; 555-567.

Colosa OI, Kostenko II. the Water regime, enzymatic activity and frost-resistance of winter wheat: Reports of agricultural Sciences, 1973, No. 3; 11-14.

Colosa OI. Method for determining the activity of the enzyme β-fructofuranosidase for comparative evaluation of frost resistance of winter wheat and rye. Kiev, 1976; 27.

Kolupaev Yu, Sysoev LA, Manoylo GA, etc. On possible mechanisms of changes in the activity of invertase during cold hardening: Physiology and biochemistry cultivated plants, 1989, T. 21, No. 6; 560-566.

Petrova OV, Kalosha OI, Mishustin SP, etc. Multiple forms of enzymes and modification of winter wheat in the period of adaptation to low temperatures: Physiology and biochemistry cultivated plants, 1985, 17, No. 4; 361-366.

Presnyakov VE. Agroecological study of winter hardiness of varieties of winter wheat in forest-steppe zone of the Volga region: abstract of thesis of candidate of biological Sciences. Ramon, 2003; 24.

Pochinok KhN. Methods biochemical analysis of plants. Kiev, 1976; 334.

Savich IM. Peroxidase – stress proteins in plants: Advances of modern biology, 1989, T. 107, Vol.3; 406-417.

Statsenko AP. Agro-ecological conditions for obtaining high yields of winter wheat in the foothills of the Northern Tien Shan: abstract of thesis of doctor of agricultural Sciences, Kiev, 1995; 41.

Statsenko AP, Zolotukhin AI. Variability of the enzyme is a reliable indicator of the status of wintering of crops: Crops, 1994, No. 3; 12-13.

Statsenko AP, Presnyakov EV. Biochemical control of frost resistance of winter crops: Advances in science and technology in agriculture, 2001, No. 1; 16-17.

Chirkov AI. Grain crops in forest-steppe of the Volga region. Penza, 2003; 139.