Water deficit is one of the major limiting factors for apple(Malus domestica)production on the Loess Plateau,a major apple cultivation area in China.The identification of genes related to the regulation of water use e...Water deficit is one of the major limiting factors for apple(Malus domestica)production on the Loess Plateau,a major apple cultivation area in China.The identification of genes related to the regulation of water use efficiency(WUE)is a crucial aspect of crop breeding programs.As a conserved degradation and recycling mechanism in eukaryotes,autophagy has been reported to participate in various stress responses.However,the relationship between autophagy and WUE regulation has not been explored.We have shown that a crucial autophagy protein in apple,MdATG8i,plays a role in improving salt tolerance.Here,we explored its biological function in response to long-term moderate drought stress.The results showed that MdATG8i-overexpressing(MdATG8i-OE)apple plants exhibited higher WUE than wild-type(WT)plants under long-term moderate drought conditions.Plant WUE can be increased by improving photosynthetic efficiency.Osmoregulation plays a critical role in plant stress resistance and adaptation.Under long-term drought conditions,the photosynthetic capacity and accumulation of sugar and amino acids were higher in MdATG8i-OE plants than in WT plants.The increased photosynthetic capacity in the OE plants could be attributed to their ability to maintain optimal stomatal aperture,organized chloroplasts,and strong antioxidant activity.MdATG8i overexpression also promoted autophagic activity,which was likely related to the changes described above.In summary,our results demonstrate that MdATG8i-OE apple lines exhibited higher WUE than WT under long-term moderate drought conditions because they maintained robust photosynthesis,effective osmotic adjustment processes,and strong autophagic activity.展开更多
基金the National Key Research and Development Program of China(2019YFD1000102)the National Natural Science Foundation of China(31972391)the earmarked fund for the China Agricultural Research System(CARS-27)。
文摘Water deficit is one of the major limiting factors for apple(Malus domestica)production on the Loess Plateau,a major apple cultivation area in China.The identification of genes related to the regulation of water use efficiency(WUE)is a crucial aspect of crop breeding programs.As a conserved degradation and recycling mechanism in eukaryotes,autophagy has been reported to participate in various stress responses.However,the relationship between autophagy and WUE regulation has not been explored.We have shown that a crucial autophagy protein in apple,MdATG8i,plays a role in improving salt tolerance.Here,we explored its biological function in response to long-term moderate drought stress.The results showed that MdATG8i-overexpressing(MdATG8i-OE)apple plants exhibited higher WUE than wild-type(WT)plants under long-term moderate drought conditions.Plant WUE can be increased by improving photosynthetic efficiency.Osmoregulation plays a critical role in plant stress resistance and adaptation.Under long-term drought conditions,the photosynthetic capacity and accumulation of sugar and amino acids were higher in MdATG8i-OE plants than in WT plants.The increased photosynthetic capacity in the OE plants could be attributed to their ability to maintain optimal stomatal aperture,organized chloroplasts,and strong antioxidant activity.MdATG8i overexpression also promoted autophagic activity,which was likely related to the changes described above.In summary,our results demonstrate that MdATG8i-OE apple lines exhibited higher WUE than WT under long-term moderate drought conditions because they maintained robust photosynthesis,effective osmotic adjustment processes,and strong autophagic activity.
