Application of Na+/H+ reverse transport protein and protein-coding gene thereof in culturing disease-resistant transgenic plant
An anti-transporter, transgenic plant technology, applied in the biological field, can solve problems such as NHX1 gene that few studies focus on
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Embodiment 1
[0028] Embodiment 1. Resistance experiment of transgenic tobacco
[0029] The acquisition of plant material
[0030]1. Obtain wild-type tobacco, empty vector tobacco and transgenic tobacco
[0031] plant material:
[0032] The wild-type tobacco variety 'Wisconsin 38' (Nicotiana tabacum cv 'Wisconsin 38') (purchased from the Tobacco Seed Resources Bank of the Tobacco Research Institute of the Chinese Academy of Agricultural Sciences) is represented by WT.
[0033] Transgenic tobacco converts Na + / H + Antiporter protein coding gene SeNHX1 transformed wild-type tobacco 'Wisconsin 38' ("W38") obtained (Zhou SF, Chen XY, Zhang XG, Li YX (2008) Improved salt tolerance in tobacco plants by co-transformation of a betaine synthesis gene BADH and a vacuolar Na + / H + antiporter gene SeNHX1. Biotechnol Lett 30:369-376). Wherein, the SeNHX1 gene uses the following primers 1 and 2 as primers, uses the first-strand cDNA synthesized from the RNA of Salicornia as a template, and PCR a...
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