Aluminum induced malate transporter (ALMT1) is regulating the Aluminum stress tolerance responses of mungbean seedlings

Under acidic soil and Aluminum (Al) stress conditions, the crop plants are facing several growth defects. Particularly significant decrease in root growth, nutrient uptake and low yield are the very common problems. Besides, several organic acid transporters are involved in Al sensing, transport and detoxification mechanisms. In this study, Al stress tolerance of mungbean plants was studied under different Al stress conditions. The results showed that the mungbean plants are severely affected by Al stress and released significant amount of malate in hydroponics media when compared with control plants. Based on this study and expression analysis of Al stress responsive genes, further, we developed ALMT1 overexpressors and ALMT1-RNAi transgenic plants of mungbean to analyse the acid soil tolerance. Later, these transgenic mungbean plants were challenged with different Al concentrations to check their stress responses. The ALMT1-RNAi lines showed almost no root growth variations in hydroponics media when compared to wild-type (WT) plants under normal growth conditions but displayed significant decrease in root length on exposure to Al. Further, when AtALMT1 was overexpressed, even in absence of Al ions, there was approximately 12% increase in length of primary roots when compared with WT. Malate efflux was almost doubled in the AtALMT1 overexpressed plant lines whereas KD lines showed around 36% drop in malate efflux under Al stress conditions. Therefore, based on these observations, we concluded that VrALMT1 has a significant role on Al stress tolerance responses in mungbean plants.