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Microbe-induced coordination of plant iron-sulfur metabolism enhances high-light-stress tolerance of Arabidopsis
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作者 Kirti Shekhawat alaguraj veluchamy +9 位作者 Anam Fatima Gabriel X.García-Ramírez Jean-Philippe Reichheld Olga Artyukh Katja Fröhlich Alexander Polussa Sabiha Parween Arun Prasanna Nagarajan Naganand Rayapuram Heribert Hirt 《Plant Communications》 SCIE 2024年第11期83-98,共16页
High-light stress strongly limits agricultural production in subtropical and tropical regions owing to photo-oxidative damage,decreased growth,and decreased yield.Here,we investigated whether beneficial mi-crobes can p... High-light stress strongly limits agricultural production in subtropical and tropical regions owing to photo-oxidative damage,decreased growth,and decreased yield.Here,we investigated whether beneficial mi-crobes can protect plants under high-light stress.We found that Enterobacter sp.SA187(SA187)supports the growth of Arabidopsis thaliana under high-light stress by reducing the accumulation of reactive oxygen species and maintaining photosynthesis.Under high-light stress,SA187 triggers dynamic changes in the expression of Arabidopsis genes related to fortified iron metabolism and redox regulation,thereby enhancing the antioxidative glutathione/glutaredoxin redox system of the plant.Genetic analysis showed that the enhancement of iron and sulfur metabolism by SA187 is coordinated by ethylene signaling.In sum-mary,beneficial microbes could be an effective and inexpensive means of enhancing high-light-stress tolerance in plants. 展开更多
关键词 high-light stress beneficial plant-microbe interaction redox regulation glutaredoxins ethylene signaling
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