中国科学院机构知识库网格
Chinese Academy of Sciences Institutional Repositories Grid
Carbon Monoxide Interacts with Auxin and Nitric Oxide to Cope with Iron Deficiency in Arabidopsis

文献类型:期刊论文

作者Yang, Liming1,2,3; Ji, Jianhui1; Wang, Hongliang4; Harris-Shultz, Karen R.4; Abd Allah, Elsayed F.5; Luo, Yuming1; Guan, Yanlong6; Hu, Xiangyang6
刊名FRONTIERS IN PLANT SCIENCE
出版日期2016-03-07
卷号7
关键词CO NO auxin iron deficiency Arabidopsis basipetal transport
英文摘要To clarify the roles of carbon monoxide (CO), nitric oxide (NO), and auxin in the plant response to iron deficiency (-Fe), and to establish how the signaling molecules interact to enhance Fe acquisition, we conducted physiological, genetic, and molecular analyses that compared the responses of various Arabidopsis mutants, including hy1 (CO deficient), noa1 (NO deficient), nia1/nia2 (NO deficient), yuc1 (auxin over-accumulation), and cue1 (NO over-accumulation) to-Fe stress. We also generated a HY1 over expression line (named HY1-OX) in which CO is over-produced compared to wild-type. We found that the suppression of CO and NO generation using various inhibitors enhanced the sensitivity of wild-type plants to Fe depletion. Similarly, the hy1, noa1, and nia1/nia2 mutants were more sensitive to Fe deficiency. By contrast, the yuc1, cuel, and HY1-OX lines were less sensitive to Fe depletion. The hy1 mutant with low CO content exhibited no induced expression of the Fe uptake related genes FIT1 and FRO2 as compared to wild-type plants. On the other hand, the treatments of exogenous CO and NO enhanced Fe uptake. Likewise, cuel and HY1-OX lines with increased endogenous content of NO and CO, respectively, also exhibited enhanced Fe uptake and increased expression of bHLH transcriptional factor FIT1 as compared to wild-type plants. Furthermore, we found that CO affected auxin accumulation and transport in the root tip by altering the PIN1 and PIN2 proteins distribution that control lateral root structure under-Fe stress. Our results demonstrated the integration of CO, NO, and auxin signaling to cope with Fe deficiency in Arabidopsis.
类目[WOS]Plant Sciences
研究领域[WOS]Plant Sciences
关键词[WOS]TRANSCRIPTION FACTOR FIT ; REACTIVE OXYGEN ; OXIDATIVE DAMAGE ; HEME OXYGENASES ; UP-REGULATION ; ROOTS ; HOMEOSTASIS ; PLANTS ; GENE ; BIOSYNTHESIS
收录类别SCI
语种英语
WOS记录号WOS:000371398800001
源URL[http://ir.kib.ac.cn/handle/151853/25996]  
专题昆明植物研究所_中国科学院青藏高原研究所昆明部
作者单位1.Huaiyin Normal Univ, Jiangsu Collaborat Innovat Ctr Reg Modern Agr &, Jiangsu Key Lab Ecoagr Biotechnol Hongze Lake, Huaian, Peoples R China
2.USDA ARS, Crop Protect & Management Res Unit, Tifton, GA 31793 USA
3.Univ Georgia, Dept Plant Pathol, Tifton, GA 31793 USA
4.USDA ARS, Crop Genet & Breeding Res Unit, Tifton, GA 31793 USA
5.King Saud Univ, Coll Food & Agr Sci, Dept Plant Prod, Riyadh, Saudi Arabia
6.Chinese Acad Sci, Inst Tibet Plateau Res Kunming, Kunming Inst Bot, Key Lab Biodivers & Biogeog, Kunming, Peoples R China
推荐引用方式
GB/T 7714
Yang, Liming,Ji, Jianhui,Wang, Hongliang,et al. Carbon Monoxide Interacts with Auxin and Nitric Oxide to Cope with Iron Deficiency in Arabidopsis[J]. FRONTIERS IN PLANT SCIENCE,2016,7.
APA Yang, Liming.,Ji, Jianhui.,Wang, Hongliang.,Harris-Shultz, Karen R..,Abd Allah, Elsayed F..,...&Hu, Xiangyang.(2016).Carbon Monoxide Interacts with Auxin and Nitric Oxide to Cope with Iron Deficiency in Arabidopsis.FRONTIERS IN PLANT SCIENCE,7.
MLA Yang, Liming,et al."Carbon Monoxide Interacts with Auxin and Nitric Oxide to Cope with Iron Deficiency in Arabidopsis".FRONTIERS IN PLANT SCIENCE 7(2016).

入库方式: OAI收割

来源:昆明植物研究所

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