TY - EJOU
AU - Yastreb, Tetiana O.
AU - Vítámvás, Pavel
AU - Prášil, Ilja T.
AU - Cit, Zdeněk
AU - Shakhov, Ivan V.
AU - Kolupaev, Yuriy E.
TI - Cold-Induced Accumulation of Low-Molecular-Weight Dehydrins in Etiolated Wheat Seedlings: Relationship with Oxidative Stress Protection and Frost Tolerance
T2 - Phyton-International Journal of Experimental Botany
PY - 2026
VL - 95
IS - 3
SN - 1851-5657
AB - Low temperature is a major abiotic stress factor inducing the accumulation of dehydrins in plants. Dehydrins are hydrophilic, heat-stable proteins implicated in plant stress responses; however, their synthesis under cold conditions during the early stages of wheat development has not been sufficiently studied. This study investigated the relationship between cold-induced dehydrin accumulation in etiolated seedlings and frost tolerance in wheat cultivars differing in their level of frost tolerance. Three-day-old seedlings of high frost-tolerant (high-FT) cultivars (Antonivka, Doskonala, and Nordika) and low frost-tolerant (low-FT) cultivars (Tobak, Tonnage, and Altigo) of Triticum aestivum L. were hardened at +3°C for six days. Dehydrin accumulation was analyzed by electrophoretic separation, while frost tolerance was assessed based on seedling survival following freezing at −4, −9, and −12°C. Cold-induced oxidative damage was evaluated by determining malondialdehyde (MDA) content in seedling shoots after freezing at −4°C. In control seedlings, dehydrins were barely detectable in all cultivars. Cold hardening at +3°C induced pronounced accumulation of dehydrins with molecular masses of approximately 46, 49.6, and 68 kDa in both high-FT and low-FT cultivars. In contrast, low-molecular-weight dehydrins (14–16 kDa) were detected predominantly in high-FT cultivars. Seedling survival after freezing at −12°C showed a strong positive correlation with total dehydrin content (r = 0.82). Even stronger correlations were observed between the content of low-molecular-weight dehydrins (14–16 kDa) and seedling survival after freezing at −9 and −12°C (r = 0.84 and 0.94, respectively). An inverse correlation was found between 14–16 kDa dehydrin content and MDA accumulation following freezing at −4°C (r = −0.87). These results indicate that low-molecular-weight dehydrins play an important role in protecting etiolated wheat seedlings from cold-induced oxidative stress and may serve as reliable biochemical markers of frost tolerance.
KW - Cold stress; dehydrins; frost tolerance; oxidative stress; Triticum aestivum L.; wheat seedlings
DO - 10.32604/phyton.2026.079882