[1]张恒,付畅,崔继哲.植物耐盐基因工程研究进展[J].黑龙江农业科学,2008,(02):11-15.[doi:10.11942/j.issn1002-2767.2008.02.0011]
 ZHANG Heng,FU Chang,CUI Ji-zhe.Prospect of Salt-tolerance Genetic Engineering in Plant[J].HEILONGJIANG AGRICULTURAL SCIENCES,2008,(02):11-15.[doi:10.11942/j.issn1002-2767.2008.02.0011]
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植物耐盐基因工程研究进展

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2008年02 页码: 11-15 栏目: 出版日期: 2008-05-10
Title:
Prospect of Salt-tolerance Genetic Engineering in Plant
文章编号:
1002-2767(2008)02-0011-04
作者:
张恒 付畅 崔继哲
哈尔滨师范大学生命与环境科学学院, 哈尔滨150025
Author(s):
ZHANG Heng FU Chang CUI Ji-zhe
College o f Life and Enviro nment Sciences ,Harbin Normal University , Harbin 150025
关键词:
植物耐盐性基因克隆基因工程
Keywords:
plant salt-tole rance gene cloning genetic engineering
分类号:
S184
DOI:
10.11942/j.issn1002-2767.2008.02.0011
文献标志码:
A
摘要:
随着分子生物学技术的不断发展, 植物耐盐基因工程已经成为当前研究的热点, 植物基因工程为耐盐新品种选育提供新的途径。很多耐盐相关基因相继被克隆和研究, 包括离子调节关键基因、渗透调节物质合成关键基因、氧化胁迫调节关键基因、盐胁迫信号传导途径相关基因以及相关调控元件和因子, 部分成功应用于植物育种研究。
Abstract:
With the developing of biomolecula r techno lo gy , research in salt-to lerance g enetic eng ineering in plantsbecome s a ho tspot , plant genetic eng ineering provide s a w ay fo r br eeding new salt-stress resistance va rieties .Lo tsof g enes have been clo ned , such as io n-reg ulation rela ted genes , o smo reg ulatio n re lated g ene s, oxidation reg ulatio nrelated g enes , salt-stress related sig na l tr ansductio n g ene s and o ther transcription facto rs , and some of them havebeen used in molecula r breeding .This paper highligh ts and discusses the pr og ress in the study of genetic e nginee ringto salt-to lerance .

参考文献/References:

[ 1] 周和平, 张立新, 禹锋, 等.我国盐碱地改良技术综述及展望[ J] .现代农业科技, 2007(11):159-164 .

[ 2] Gaxiola R A , Rao R, Sherman A , et al.The Arabidop sis thalianaprot on t ransport ers , AtNhx1 and Avp1 can function in cationdet oxifi cation in yeast[ J] .Proc Natl Acad Sci.USA , 1999 ,96 :1480-1485 .
[ 3] Apse M P, Ah aron G S , Snedden W A , et al.Salt t olerance conferredby overexpression of a vacuolar Na +/ H + an tiport inArabidopsis[ J] .Science , 1999 , 285 :1256-1258 .
[ 4] Zh ang H X, Hods on J N , Wlliams J P, et al.En gineering salttolerant Bras sica pl an ts :characterizati on of yield and seed oilqualit y in t ransgeni c plant s w ith increased vacuolar sodium accumulation[ J] .PNAS , 2001 , 98 :12832-12836 .
[ 5] Chen L H , Zhang B , Xu Z Q .Salt t olerance conferred by overexpres si on of Arabidopsi s vacuolar Na +/ H + an tiport er geneAtNHX1 in common bu ckw heat (Fagopyrum escul entum )[ J] .Transgeni c Res , 2007(5):31 .
[ 6] S chachtman D P , Sch roeder J I .S tru cture and t rans port mechanismof a hig h-af fini ty pot assium upt ake transp orter f rom higherplant s[ J] .Nature , 1994 , 370 :655-658 .
[ 7] Ren Z H ,Gao J P , Li L G , et al.A rice quant it ative t rait locusf or sal t t ol erance encodes a sodium t rans porter [ J] .NatureGenet , 2005, 37 :1141-1146 .
[ 8] Hu L , Lu H , Liu Q, et al.Overexpression of mt lD gene int ransgeni c Popu lus t oment osa im proves s al t t olerance throughaccumu lation of m an ni t ol [ J] .T ree Physi ol , 2005 , 25 (10):1273-1281 .
[ 9] S hirasaw a K , Takabe T , T ak abe T , et al.Accumulat ion ofglycinebet aine in rice plant s that overexp ress cholin e m on ooxygenasef rom spinach and evaluati on of thei r t olerance t o abi oticst ress[ J] .Annal s of Botany , 2006 , 98(3):565-571 .
[ 10] Kumar S , Dhing ra A , Daniell H .Plas tid-expressed bet aine aldehydedehyd rogenase gene in carrot cultured cell s , roots andleaves confers en hanced salt tolerance[ J] .Plant Physiol , 2004 ,136(1):2843-2854 .
[ 11] H an L M , Yu J N , Ju W F .Salt and drou ght t olerance oft ransgeni c sal vi a milt iorrhiz a Bunge w ith the TaLEA1 gene[ J]Jou rn al of Plant Phy siology and Molecular Bi ology , 2007 , 33(2):109-114 .
[ 12] Gao X, Ren Z , Zh ao Y, et al.Overexpression of SOD2 increasessalt t olerance of Arabidopsis[ J] .Plant Physiol , 2003 , 133(4):1873-1881 .
[ 13] Us himaru T , Nak agaw a T , Fuji oka Y, et al .T ran sgeni c Arabidopsisplant s expres sing the ri ce dehydroascorbat e reductasegen e are resist ant t o salt s tress [ J] .Plant Physi ol , 2006 , 163(11):1179-1184 .
[ 14] Zhu Ji an-kang , Liu Ji-ping ,Xiong Li-ming .Genetic Analysis of SaltTolerance in Arabidopsis :Evidence for a Cri tical Role of Pot assiumNutrition[ J] .The Plant Cell , 1998 , 10 :1181-1191 .
[ 15] Vi llablobos M A , Bart el s D, Iturriaga G .St ress tolerance andglucose insensit ive phenotypes in Arabidop sis overexp ressi ongthe CpMYB10 t ranscripti on f actor gene [ J ] .Plant Physi ol .2004 , 135(1):309-324 .
[ 16] 宋颖琦, 杨谦, 秦跟基, 等.AtP IP 5K2 基因参与拟南芥盐胁迫的调节过程[ J] .北京林业大学学报, 2006 , 28(5):78-83 .
[ 17] Cao W H , Liu J , He X J , et al.M odu lation of ethylene resp onsesaf fect s plant sal t-st ress responses[ J] .Plant Physiol , 2007 ,143(2):707-719 .
[ 18] Yadav S K , Singla-Pareek S L, Reddy M K , et al .Transgenict ob acco p lan ts overexp ressing gly oxalase enzymes resi st an increasein m ethylgl yoxal and m ain tain hig her reduced glu tathionelevels under salinit y st res s[ J] .FEBS Let t , 2005 , 579(27):6265-6271 .
[ 19] Jung J , Won S Y, Suh S C, et al.The barley ERF-type t ranscriptionfact or HvRAF conf ers enhanced pathogen resi st ance and salt tolerancein Arabidopsis[ J] .Planta, 2007, 225(3):575-588.
[ 20] Ci ft ci-Yilmaz S , Morsy M R, S ong L , et al.The EA R-moti f ofthe Cys2/ H is2-t ype zinc fin ger protein Zat7 plays a key role inthe def ense response of Arabidopsis t o salini ty st ress[ J] .B-  iology Chemist ry , 2007 , 282(12):9260-9268 .
[ 21] T oshio Yam agu chi , Eduardo Blumw ald .Developing sal t-t olerantcrop plant s :chall enges and opportuni ties [ J] .Trends inPlant S cience , 2005 , 10(12):615-620 .
[ 22] Yam amot o A , Bhuiyan M N , Wadi tee R, et al.Su ppressed expression of the apoplast ic ascorbat e oxidase gene in creases saltt olerance in tobacco and Arabidopsis plant s [ J] .J Exp Bot .2005 , 56(417):1785-1796 .
[ 23] Neeti Sanan-Mishra, Xuan H oi Pham ,Sudhir K, et al.Pea DNA helicase45 over expression in tobacco conf ers high salini ty t olerancew ithout af fecting yi eld[ J] .PNAS ,2005 ,102(2):509 – 514 .

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备注/Memo

基金项目:黑龙江省青年科学技术专项资金项目(QC 06C 044)

第一作者简介:张恒(1983-), 女, 哈尔滨市人, 硕士, 从事生化与分子生物学研究。E-mai l hrb-zhang @hotmai l.com 。

更新日期/Last Update: 2016-12-12