Enhanced drought and salt tolerance by expression of AtGSK1 gene in poplar

A GSK3/shaggy-like kinase (AtGSK1) has been implicated in the regulation of drought and salt tolerance. We transferred AtGSK1 from Arabidopsis thaliana to a hybrid poplar (Populus alba × P. tremula var. grandulosa) to determine the effect of the transgene expression in the transgenic trees. The results from northern blot and RT-PCR analyses showed that the expression level varied among the transgenic lines. During their culture on tissue culture media, the transgenic poplars formed vigorous growing roots even in the presence of 125 mM NaCl and callus in the presence of 150 mM NaCl. When the transgenic poplars were growing in pots and provided with NaCl solution, they stayed much healthier than did nontransgenic poplars, showing higher rates of photosynthetic rates, stomatal conductance, and evaporation rates under the stress. Whereas the total level of leaf Na⁺ level increased dramatically in transgenic poplars under severe saline conditions (150 mM NaCl), that of leaf K⁺ decreased in the same plants under the same conditions. Total root Na⁺ level increased in nontransgenic poplars under severe saline conditions. In contrast, total root K⁺ level decreased in the same plants under the same conditions. The chloride content and relative electrical conductivity of the transgenic poplars after salt stress treatment were lower than those of nontransgenic poplars. The transgenic poplars were also tolerant to up to 20 % PEG remaining significantly healthy when compared with nontransgenic poplars with necrosis and chlorosis symptoms. Another dramatic feature of the transgenic poplars was wilting tolerance for prolonged drought treatment up to 2 weeks. The results provide evidence that the expression of AtGSK1 gene conferred drought and salt tolerance in the transgenic poplars.