[1]邓凌韦,张丽艳,马军韬,等.机理I植物根系铁吸收及缺铁感应信号研究进展[J].黑龙江农业科学,2015,(09):140-146.[doi:10.11942/j.issn1002-2767.2015.09.0140]
 DENG Ling-wei,ZHANG Li-yan,MA Jun-tao,et al.Research Progress on the Iron Uptake of StrategyⅠPlant and Iron Sensors to Iron Deficiency[J].HEILONGJIANG AGRICULTURAL SCIENCES,2015,(09):140-146.[doi:10.11942/j.issn1002-2767.2015.09.0140]
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机理I植物根系铁吸收及缺铁感应信号研究进展

参考文献/References:

[1]刘凯,张祥喜,魏本华,等.铁的生理功能与高铁水稻的研究进展[J].江西农业学报,2008(20):22-26.

[2]Schmidt W.Iron solutions: acquisition strategies and signaling pathway in plants[J].Trends Plant Sci,2003,8:188-193.
[3]金崇伟.机理Ⅰ植物缺铁相应机制和信号调控途径[D].杭州:浙江大学,2008.
[4]Gregoiro G B,Senadra D,Htut T.Improving iron and zinc value of rice for human nutrition[J].Agriculture et Development,1999,23(9):77-81.
[5]段立红,丁红,李文学,等.机理Ⅰ植物铁吸收与运输的分子机制[J].植物营养与肥料学报,2007(13):739-744.
[6]Kobayashi T,Nakanishi H,Nishizawa N.Recent insights into iron homeostasis and their application in graminaceous crops[J].Proceedings of the Japan Academy Series B:Physical and Biological Sciences,2010,86:900913.
[7]Moog P,TAvd K,Bruggemann W,et al.Responses to iron defieieney in Arabidopsis thaliana:TheTurbo iron reduetase does not depend on the formation of root hairs and transfer cells[J].Planta,1995:195.
[8]Chancy R,Chen Y,Green C,et al.Root hairs on chlorotic tomatoes are an effect of chlorosis rather than part of the adaptive Fe-stress-response[J].Journal of Plant Nutrition,1992,165:197-205.
[9]Tzvetina B,Petra B,Rumen I.Molecular mechanisms governing Arabidopsis?iron uptake[J].Trends in Plant Science,2014:1-10.
[10]Landsborg E.Transfer cell formation in the root epidermis: a prerequisite for Fe- effieieney[J].Journal of Plant Nutrition,1982,5:415-432.
[11]Jin C W,You G Y,He Y F,et al.Iron deficiency-induced secretion of phenolics facilitates the reutilization of root apoplastic iron in red clover[J].Plant Physiology,2007,144:278-285.
[12]Rodríguez-C elma J,Lin W-D,Guin-Mau Fu,et al.Mutually exclusive alterations in secondary metabolism are critical for the uptake of insoluble iron compounds by Arabidopsis?and Medicago truncatula[J].Plant Physiology,2013,162:1473-1485.
[13]jeong J L E.Iron uptake mechanisms in plant:Functions of the FOR family of ferric reductases[J].Plant Science,2009,176:709-714.
[14]Dinneny ?J R,Long T A,Wang J Y,et al.Cell identity mediates the response of Arabidopsis?roots to abiotic stress[J].Science,2008,320:942-945.
[15]Feng H,An F,Zhang S,et al.Lightregulated,tissue and cell differentiationspecific expression of the Arabidopsis Fe(III)-chelate reductase gene AtFRO6[J].Plant Physiology,2006,140:1345-1354.
[16]Jeong J,Cohu C,Kerkeb L,et al.Chloroplast Fe(III) chelate reductase activity is essential for seedling viability under iron limiting conditions[J].Proceedings of the National Academy of Sciences USA,2008,105:10169-10624.
[17]Waters B M,Blevins D G,Eide D J.Characterization of FRO1,a pea ferricchelate reductase involved in root iron acquisition[J].Plant Physiology,2002,129:85-94.
[18]Vert G,Grotz N,Dédaldéchamp F,et al.IRT1,an Arabidopsis transporter essential for iron uptake from the soil and plant growth[J].Plant Cell,2002,14:1223-1233.
[19]Shin L J,Lo J C,Chen G H,et al.a ring E3 ubiquitin ligase,regulates the degradation of iron-regulated transporter1 in Arabidopsis[J].Plant Cell,2013,25:3039-3051.
[20]Barberon ?M,Dubeaux G,Kolb C,et al.Polarization of IRON-REGULATED TRANSPORTER 1 (IRT1) to the plant-soil interface plays crucial role in metal homeostasis[J].Proceedings of the National Academy of Sciciences USA,2014,111:8293-8298.
[21]Ivanov R,Brumbarova T,Blum A,et al.SORTING NEXIN1 is required for modulating the trafficking and stability of the Arabidopsis?IRON-REGULATED TRANSPORTER1[J].Plant Cell,2014,26:1294-1307.[22]Brumbarova T,Bauer P.Iron-mediated control of the basic helix-loop-helix protein FER,a regulator of iron uptake in tomato[J].Plant Physiology,2005,137:1018-1026.
[23]Rumen I,Tzvetina B,Petra B.Fitting into the Harsh Reality: Regulation of Iron-deficiency Responses in Dicotyledonous Plants[J].Molecular Plant,2012,5:27-42.
[24]Colangelo E P,Guerinot M L.The essential basic helix- loop-helix protein FIT1 is required for the iron deficiency response[J].Plant Cell,2004,16:3400-3412.
[25]Brumbarova T,Bauer P,Ivanov R.Molecular mechanisms governing Arabidopsis?iron uptake[J].Trends in Plant Science,2014:1-10.
[26]Sivitz A,Grinvalds C,Barberon M,et al.Proteasome-mediated turnover of the transcriptional activator FIT is required for plant iron-deficiency responses[J].The Plant Journal,2011,66:1044-1052.
[27]Lingam S,Mohrbacher J,Brumbarova T,et al.nteraction between the bHLH transcription factor FIT and ETHYLENE INSENSITIVE3/ETHYLENE INSENSITIVE3LIKE1 reveals molecular linkage between the regulation of iron acquisition and ethylene signaling in Arabidopsis[J].Plant Cell,2011,23:1815-1829.
[28]Sunghyun Hong,Sun A Kim,Mary Lou Guerinot,et al.Reciprocal interaction of the circadian clock with the iron homeostasis network in Arabidopsis[J].Plant Physiology,2013,161:893-903.
[29]WangHong Yu,Marco Klatte,Marc Jakoby,et al.Iron deficiency-mediated stress regulation of four subgroup Ib BHLH genes in Arabidopsis thaliana[J].Planta,2007,226:897-908.
[30]Rumen Ivanov,Tzvetina Brumbarova,Petra Bauer.Fitting into the harsh reality:regulation of irondeficiency responses in dicotyledonous Plants[J].Molecular Plant,2012,5:27-42.
[31]Magdalena Graziano,Lorenzo Lamattina.Nitrie oxide accumulation is required for molecular and physiological responses to iron deficiency in tomato roots[J].Plant Journal,2007,52:949-960.
[32]Chen Weiwei,Yang Jianli,Qin Cheng,et al.Nitric oxide acts downstream of auxin to trigger root ferric-chelate reductase activity in response to iron deficiency in Arabidopsis[J].Plant Physiology,2010,154: 810-819.
[33]Keita Matsuoka,Jun Furukawa,Haniyeh Bidadi,et al.Gibberellin-induced expression of Fe uptake-related genes in Arabidopsis[J].Plant Cell Physiology,2014,55:87-98.

备注/Memo

收稿日期:2015-03-23

第一作者简介:邓凌韦(1975-),女,四川省三台县人,博士,助理研究员,从事水稻育种研究。Email:lucydlw@163.com。

更新日期/Last Update: 2016-09-09