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Towards establishment of a rice stress response interactome
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نویسنده
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seo y.-s. ,chern m. ,bartley l.e. ,han m. ,jung k.-h. ,lee i. ,walia h. ,richter t. ,xu x. ,cao p. ,bai w. ,ramanan r. ,amonpant f. ,arul l. ,canlas p.e. ,ruan r. ,park c.-j. ,chen x. ,hwang s. ,jeon j.-s. ,ronald p.c.
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منبع
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plos genetics - 2011 - دوره : 7 - شماره : 4
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چکیده
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Rice (oryza sativa) is a staple food for more than half the world and a model for studies of monocotyledonous species,which include cereal crops and candidate bioenergy grasses. a major limitation of crop production is imposed by a suite of abiotic and biotic stresses resulting in 30%-60% yield losses globally each year. to elucidate stress response signaling networks,we constructed an interactome of 100 proteins by yeast two-hybrid (y2h) assays around key regulators of the rice biotic and abiotic stress responses. we validated the interactome using protein-protein interaction (ppi) assays,co-expression of transcripts,and phenotypic analyses. using this interactome-guided prediction and phenotype validation,we identified ten novel regulators of stress tolerance,including two from protein classes not previously known to function in stress responses. several lines of evidence support cross-talk between biotic and abiotic stress responses. the combination of focused interactome and systems analyses described here represents significant progress toward elucidating the molecular basis of traits of agronomic importance. © 2011 seo et al.
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آدرس
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department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca,united states,the joint bioenergy institute,emeryville,ca, United States, department of plant pathology,university of california davis,davis,ca,united states,the joint bioenergy institute,emeryville,ca, United States, plant metabolism research center and graduate school of biotechnology,kyung hee university,yongin, South Korea, department of plant pathology,university of california davis,davis,ca,united states,the joint bioenergy institute,emeryville,ca,united states,department of plant molecular systems biotechnology and crop biotech institute,kyung hee university,yongin, South Korea, department of biotechnology,college of life science and biotechnology,yonsei university,seoul, South Korea, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca,united states,plant sciences,centre for cellular and molecular biology,hyderabad, India, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of plant pathology,university of california davis,davis,ca, United States, department of biotechnology,college of life science and biotechnology,yonsei university,seoul, South Korea, plant metabolism research center and graduate school of biotechnology,kyung hee university,yongin, South Korea, department of plant pathology,university of california davis,davis,ca,united states,the joint bioenergy institute,emeryville,ca,united states,plant metabolism research center and graduate school of biotechnology,kyung hee university,yongin, South Korea
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Authors
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