Identification and Functional Analysis of ThADH1 and ThADH4 Genes Involved in Tolerance to Waterlogging Stress in Taxodium hybrid 'Zhongshanshan 406'

The Taxodium hybrid 'Zhongshanshan 406' (T. hybrid 'Zhongshanshan 406') [Taxodium mucronatum Tenore x Taxodium distichum (L.). Rich] has an outstanding advantage in flooding tolerance and thus has been widely used in wetland afforestation in China. Alcohol dehydrogenase genes (ADHs) played key roles in ethanol metabolism to maintain energy supply for plants in low-oxygen conditions. Two ADH genes were isolated and characterized-ThADH1 and ThADH4 (GenBank ID: AWL83216 and AWL83217-basing on the transcriptome data of T. hybrid 'Zhongshanshan 406' grown under waterlogging stress. Then the functions of these two genes were investigated through transient expression and overexpression. The results showed that the ThADH1 and ThADH4 proteins both fall under ADH III subfamily. ThADH1 was localized in the cytoplasm and nucleus, whereas ThADH4 was only localized in the cytoplasm. The expression of the two genes was stimulated by waterlogging and the expression level in roots was significantly higher than those in stems and leaves. The respective overexpression of ThADH1 and ThADH4 in Populus caused the opposite phenotype, while waterlogging tolerance of the two transgenic Populus significantly improved. Collectively, these results indicated that genes ThADH1 and ThADH4 were involved in the tolerance and adaptation to anaerobic conditions in T. hybrid 'Zhongshanshan 406'.

Automated summary

The Taxodium hybrid 'Zhongshanshan 406' has been widely used in wetland afforestation in China due to its outstanding flooding tolerance. The study identified and characterized two ADH genes-ThADH1 and ThADH4, which were found to play a key role in the adaptation to anaerobic conditions. Overexpression of these genes in Populus improved waterlogging tolerance, indicating their crucial role in plant survival under low-oxygen conditions.