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An Arabidopsis Nucleoporin NUP85 modulates plant responses to ABA and salt stress
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نویسنده
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zhu y. ,wang b. ,tang k. ,hsu c.-c. ,xie s. ,du h. ,yang y. ,tao w.a. ,zhu j.-k.
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منبع
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plos genetics - 2017 - دوره : 13 - شماره : 12
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چکیده
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Several nucleoporins in the nuclear pore complex (npc) have been reported to be involved in abiotic stress responses in plants. however,the molecular mechanism of how npc regulates abiotic stress responses,especially the expression of stress responsive genes remains poorly understood. from a forward genetics screen using an abiotic stress-responsive luciferase reporter (rd29a-luc) in the sickle-1 (sic-1) mutant background,we identified a suppressor caused by a mutation in nucleoporin 85 (nup85),which exhibited reduced expression of rd29a-luc in response to aba and salt stress. consistently,the aba and salinity induced expression of several stress responsive genes such as rd29a,cor15a and cor47 was significantly compromised in nup85 mutants and other nucleoporin mutants such as nup160 and hos1. subsequently,immunoprecipitation and mass spectrometry analysis revealed that nup85 is potentially associated with hos1 and other nucleoporins within the nup107-160 complex,along with several mediator subunits. we further showed that there is a direct physical interaction between med18 and nup85. similar to nup85 mutations,med18 mutation was also found to attenuate expression of stress responsive genes. taken together,we not only revealed the involvement of nup85 and other nucleoporins in regulating aba and salt stress responses,but also uncovered a potential relation between npc and mediator complex in modulating the gene expression in plants. © 2017 zhu et al.
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آدرس
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shanghai center for plant stress biology and cas center of excellence for molecular plant sciences,chinese academy of sciences,shanghai,china,department of horticulture and landscape architecture,purdue university,west lafayette,in, United States, department of horticulture and landscape architecture,purdue university,west lafayette,in, United States, shanghai center for plant stress biology and cas center of excellence for molecular plant sciences,chinese academy of sciences,shanghai,china,department of horticulture and landscape architecture,purdue university,west lafayette,in, United States, department of biochemistry,purdue university,west lafayette,in, United States, shanghai center for plant stress biology and cas center of excellence for molecular plant sciences,chinese academy of sciences,shanghai,china,department of horticulture and landscape architecture,purdue university,west lafayette,in, United States, department of horticulture and landscape architecture,purdue university,west lafayette,in,united states,college of agronomy and biotechnology,southwest university,chongqing, China, department of horticulture and landscape architecture,purdue university,west lafayette,in,united states,key laboratory of sugarcane biology and genetic breeding ministry of agriculture,fujian agriculture and forestry university fuzhou,fuzhou, China, department of biochemistry,purdue university,west lafayette,in, United States, shanghai center for plant stress biology and cas center of excellence for molecular plant sciences,chinese academy of sciences,shanghai,china,department of horticulture and landscape architecture,purdue university,west lafayette,in, United States
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Authors
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