-Methyladenosine and physiological response divergence confer autotetraploid enhanced salt tolerance compared to its diploid .

Unlabelled: Polyploid species have played an essential role in plant evolution, exemplified by adaptive advantages to abiotic stress. -Methyladenosine (m6A) is suggested to play an important role in stress response. However, whether genome doubling affects m6A to increase autopolyploids stress tolerance is still unclear. This study aims to compare physiological (maintaining osmoregulatory homeostasis) and m6A changes between autotetraploid and diploid wild barley ( in response to salt (NaCl) stress. Results showed that autotetraploids physiologically had enhanced stress tolerance based on the measured parameters of relative water content, water loss, proline, HO, and chlorophyll. Diploid experienced an excessive abundance of proline following salt stress where tetraploids had beneficial proline accumulation and thus enhanced osmoregulation. The significantly higher level of proline and HO in diploid than in autotetraploid implies that diploids suffered higher osmotic stress than autotetraploid. Autotetraploid produced enough proline to protect stress, but not so much to cause toxicity. m6A in total RNA showed no significant difference between ploidies in controls, but was significantly higher in autotetraploids than in diploids during stress and recovery. These results suggest that increased m6A might be one of molecular mechanisms that increases salt tolerance in autotetraploid compared to diploids, which enhances the adaptation of autopolyploids.

Supplementary Information: The online version contains supplementary material available at 10.1007/s12298-022-01260-x.