The 5′-untranslated region of the maize alcohol dehydrogenase gene provides efficient translation of mRNA in plants under stress conditions

The reduced level of expression of most cell proteins under stress conditions is determined by the low efficiency of cap-dependent translation of corresponding mRNAs. The maize gene encoding alcohol dehydrogenase, adh1, is a gene whose mRNA is efficiently translated in hypoxia. The reporter gene assay showed that the leader sequence of the adh1 mRNA provided for efficient translation of the reporter gfp gene in Nicotiana benthamiana cells in hypoxia or heat shock. The presence of this sequence in the 5′-UTR of mRNA did not change the level of expression under aerobic conditions, but the levels of gfp expression in hypoxia or heat shock were reduced five-to tenfold in the absence of this leader and remained unaffected when the adh leader sequence was present in the 5′-UTR. The adh1 leader sequence did not change the mRNA stability nor exhibited a promoter activity. Thus, the adh leader sequence acted as a translational enhancer, providing for efficient mRNA translation in plant cells under stress conditions. Introduction of this sequence into standard expression cassettes was proposed for the development of new systems to efficiently express the target proteins in plants under stress conditions.