To explore the effects of salt-tolerance gene accumulation on salt tolerance in transgenic plant, we used four types of plant expression vector (N27, N28, N29, and N30) carrying mtlD, mtlD + gutD, mtlD + gutD + BADH, mtlD + gutD + BADH + sacB genes respectively, to transform tobacco through Agrobacterium-mediated method. Transgenic lines were identified through polymerase chain reaction (PCR) detection. Transgenic lines and non-transgenic plant (CK) were subjected to 6‰ sodium chloride solution stress; then, fluorescence quantitative PCR (FQ-PCR) and salt tolerance indexes were used to assess characteristics. PCR showed the exogenous genes had been integrated into the tobacco genome. FQ-PCR showed under clean water treatment the target genes were expressed in all transgenic plants at the transcriptional level. The transcript abundances of target genes changed with the number of genes increased, and improved following salt stress. Comparative analyses of salt tolerance indexes showed height growth, biomass (except for N29), chlorophyll content, net photosynthetic rate, Fv/Fm, and PI of all transgenic plants and CK were lower under salt stress than under clean water treatment, to varying degrees. However, the descent ratio was smaller in transgenic plants. A comprehensive evaluation of multiple salt-tolerance indicators performed using the membership function method showed the average salt tolerance of each vector transgenic line was higher than that of CK, and salt tolerance was greater in transgenic polyvalent gene lines than in transgenic monovalent gene lines. The average salt tolerance was N29 > N28 > N30 > N27 > CK. This study provides a theoretical and practical reference for salt tolerance breeding in other plants.
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