Growth of Transgenic Tobacco Plants with Changed Expression of Genes Encoding Expansins under the Action of Stress Factors

The peculiarities of root growth and stress tolerance of transgenic tobacco plants with constitutive expression of NtEXPA1 and NtEXPA5 genes, as well as plants with reduced expression of NtEXPA4 gene encoding alpha-expansins of Nicotiana tabacum, were studied during prolonged cultivation under conditions of drought, salinity, and low positive temperatures. Increased expression of expansin genes led to an increase in the growth rate and root length both under normal plant growth conditions and at 12A degrees C and 50 mM NaCl. Increased expression of expansin genes influenced the changes in the fresh and dry mass of a shoot, leading to an increase in their exposure to hypothermia. Transgenic plants with a reduced level of NtEXPA4 expansin gene expression were characterized by a reduction in the fresh and dry weight of a shoot due to drought and low positive temperatures. The totality of the data obtained may indicate the involvement of NtEXPA1, NtEXPA4, and NtEXPA5 tobacco expansin genes in the regulation of growth under hypothermia, drought, and salinity.