[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]
点击复制

机理I植物根系铁吸收及缺铁感应信号研究进展

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2015年09 页码: 140-146 栏目: 出版日期: 2015-09-10
Title:
Research Progress on the Iron Uptake of StrategyⅠPlant and Iron Sensors to Iron Deficiency
文章编号:
1002-2767(2015)09-0140-07
作者:
邓凌韦1张丽艳1马军韬1王永力1李 琬1王利军2郑德刚1
1.中国科学院 北方粳稻分子育种联合研究中心,黑龙江 哈尔滨150086;2.长江大学 生命科学学院,湖北 荆州434025
Author(s):
DENG Ling-wei1ZHANG Li-yan1MA Jun-tao1WANG Yong-li1LI Wan1WANG Li-jun2ZHENG De-gang1
1.Rice Molecular Breeding in Northern Joint Research Center of Chinese Academy of Sciences,Harbin,Heilongjiang 150086; 2.College of Life Science,Yangtze University,Jingzhou,Hubei 434025
关键词:
缺铁铁吸收高铁还原酶生长素
Keywords:
iron deficiency iron uptake ferric chelate reductase auxin
分类号:
Q945
DOI:
10.11942/j.issn1002-2767.2015.09.0140
文献标志码:
A
摘要:
发展中国家及偏远地区人们普遍侧重植物性食物。植物类食物含铁量偏低,容易导致人体产生各种缺铁病症。缺铁病症尤其是缺铁性贫血严重影响着育龄妇女和儿童的身体健康。虽然铁在土壤中含量丰富,但生物有效性低。目前缺铁是与缺氮和缺磷并列的、发生最为广泛、对植物生长发育影响最大的限制因子之一。因此,改善植物的铁营养成为了当今土壤和植物营养学研究热点。通过综述近年来机理Ⅰ植物根系形态变化、铁吸收过程、应答缺铁胁迫调节网络及缺铁胁迫感应信号研究进展,为通过分子生物学手段解决植物缺铁问题提供理论依据。
Abstract:
People in developing countries and remote areas generally focused on plant-based foods,whose iron content was low,and easily resulting in all kinds of iron deficiency disorders of human body.Iron deficiency symptoms especially iron-deficiency anemia severely affects women of childbearing age and children’s health.The soil was much rich in iron,but the biological effectiveness was very low.The iron deficiency,as nitrogen deficiency and phosphorus deficiency,one of the most widely and seriously limiting factors of plant growth and development.Therefore,how to improve the plant iron nutrition is becoming a research focus in soil science and Plant nutrition.An overview of the strategy Ⅰ plant root morphology change,iron acquisition process,adjustment network and induction signal of iron deficiency was provided,so as to provide the theory basis for solving the problem of plant iron deficiency by means of molecular biology.

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