1.In the results,we mistakenly described the information of Figure 9B.The correct sentence should be“The factor 1 and factor 2 explained 71.30%and 16.68%of the total variance,respectively.The 0 mmol L^(-1) NaCl conce...1.In the results,we mistakenly described the information of Figure 9B.The correct sentence should be“The factor 1 and factor 2 explained 71.30%and 16.68%of the total variance,respectively.The 0 mmol L^(-1) NaCl concentration showed the highest contribution(29.95%)to factor 1 in roots of E+plants,and 200 mmol L^(-1) NaCl concentration was significantly loaded(45.95%)on factor 2 in roots of E+plants(Figure 9B).”展开更多
Salt stress negatively affects plant growth,and the fungal endophyte Epichloëgansuensis increases the tolerance of its host grass species,Achnatherum inebrians,to abiotic stresses.In this work,we first evaluated ...Salt stress negatively affects plant growth,and the fungal endophyte Epichloëgansuensis increases the tolerance of its host grass species,Achnatherum inebrians,to abiotic stresses.In this work,we first evaluated the effects of E.gansuensis on glucose-6-phosphate dehydrogenase(G6PDH)and plasma membrane(PM)H^(+)-ATPase activity of Achnatherum inebrians plants under varying NaCl concentrations.Our results showed that the presence of E.gansuensis increased G6PDH,PMH^(+)-ATPase,superoxide dismutase and catalase activity to decrease O2•^(–),H_(2)O_(2)and Na^(+)contents in A.inebrians under NaCl stress,resulting in enhanced salt tolerance.In addition,the PM NADPH oxidase activity and NADPH/NADP+ratios were all lower in A.inebrians with E.ganusensis plants than A.inebrians plants without this endophyte under NaCl stress.In conclusion,E.gansuensis has a positive role in improving host grass yield under NaCl stress by enhancing the activity of G6PDH and PM H^(+)-ATPase to decrease ROS content.This provides a new way for the selection of stress-resistant and high-quality forage varieties by the use of systemic fungal endophytes.展开更多
文摘1.In the results,we mistakenly described the information of Figure 9B.The correct sentence should be“The factor 1 and factor 2 explained 71.30%and 16.68%of the total variance,respectively.The 0 mmol L^(-1) NaCl concentration showed the highest contribution(29.95%)to factor 1 in roots of E+plants,and 200 mmol L^(-1) NaCl concentration was significantly loaded(45.95%)on factor 2 in roots of E+plants(Figure 9B).”
基金the National Basic Research Program of China(2014CB138702)the Joint Fund of the National Natural Science Foundation of China and the Karst Science Research Center of Guizhou Province(U1812401)+4 种基金Changjiang Scholars and Innovative Research Team in University(IRT_17R50)Lanzhou University“Double First-Class”guiding special project-team construction fund-scientific research start-up fee standard(561119206)the National Natural Science Foundation of China(31901378)Guizhou Education Department Program(Qianjiaohe-KY-2018-130)Major Science and Technology Sub-project of Guizhou Science and Technology Program(Qiankehe-2019-3001-2).
文摘Salt stress negatively affects plant growth,and the fungal endophyte Epichloëgansuensis increases the tolerance of its host grass species,Achnatherum inebrians,to abiotic stresses.In this work,we first evaluated the effects of E.gansuensis on glucose-6-phosphate dehydrogenase(G6PDH)and plasma membrane(PM)H^(+)-ATPase activity of Achnatherum inebrians plants under varying NaCl concentrations.Our results showed that the presence of E.gansuensis increased G6PDH,PMH^(+)-ATPase,superoxide dismutase and catalase activity to decrease O2•^(–),H_(2)O_(2)and Na^(+)contents in A.inebrians under NaCl stress,resulting in enhanced salt tolerance.In addition,the PM NADPH oxidase activity and NADPH/NADP+ratios were all lower in A.inebrians with E.ganusensis plants than A.inebrians plants without this endophyte under NaCl stress.In conclusion,E.gansuensis has a positive role in improving host grass yield under NaCl stress by enhancing the activity of G6PDH and PM H^(+)-ATPase to decrease ROS content.This provides a new way for the selection of stress-resistant and high-quality forage varieties by the use of systemic fungal endophytes.
