[1]孟德斌,郭九峰,马梦宇,等.植物DNA甲基化与低温胁迫研究进展及展望[J].黑龙江农业科学,2017,(08):119-125.[doi:10.11942/j.issn1002-2767.2017.08.0119]
 MENG De-bin,GUO Jiu-feng,MA Meng-yu,et al.Research Progress and Prospect of Plant DNA Methylation and Low Temperature Stress[J].HEILONGJIANG AGRICULTURAL SCIENCES,2017,(08):119-125.[doi:10.11942/j.issn1002-2767.2017.08.0119]
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植物DNA甲基化与低温胁迫研究进展及展望

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2017年08期 页码: 119-125 栏目: 出版日期: 2017-08-10
Title:
Research Progress and Prospect of Plant DNA Methylation and Low Temperature Stress
文章编号:
1002-2767(2017)08-0119-06
作者:
孟德斌1郭九峰1马梦宇1于林清2于利伟3
1.内蒙古大学 物理科学与技术学院,内蒙古 呼和浩特 010021;2.中国农业科学院 草原研究所,内蒙古 呼和浩特 010010;3.东北师范大学,吉林 长春 130024
Author(s):
MENG De-bin1GUO Jiu-feng1 MA Meng-yu1YU Lin-qing2YU Li-wei3
1.Physical Science and Technology College,Inner Mongolia University,Hohhot,Inner Mongolia 010021;2.Grassland Research Institute,Chinese Academy of Agricultural Sciences,Hohhot,Inner Mongolia 010010;3.Northeast Normal University,Changchun,Jilin 130024
关键词:
非生物胁迫低温胁迫DNA甲基化
Keywords:
abiotic stresseslow temperature stress DNA methylation
分类号:
Q945.78
DOI:
10.11942/j.issn1002-2767.2017.08.0119
文献标志码:
A
摘要:
非生物胁迫中能够影响植物产量和生长的因素包括高盐、干旱、低温等。过低的环境温度对植物造成低温胁迫,进而影响植物的生长、发育、产量以及种子品质。在调控表达真核生物基因的过程中,DNA的甲基化起到了关键性的作用,并且是参与构成表观遗传学的主要成分。为使植物更好地适应冷胁迫,创造抗寒性新种质,通过对国内外植物NDA甲基化以及低温胁迫的研究进展进行综述,对应对低温胁迫,开展表观遗传研究提出展望。
Abstract:
Abiotic stresses,such as drought,salinity and chillling,negatively influence survival,biomass production and crop yield.Low temperature or cold stress,causes cold damage to plants,and affects plant growth,development,as well as quality of seed.In the process of regulating the expression of eukaryotic genes,DNA methylation is an important component of the epigenetic,and it plays a key role in regulating gene expression.In order to make plants better adapt to cold stress,new germplasm with cold resistance was created.This paper briefly discusses the relationship between Plant Chilling Stress and plant DNA methylation,and advances in research at home and abroad.And put forward the prospect of how to deal with low temperature stress and carry out epigenetic research.

参考文献/References:

[1]Waddington C H.Canalization of development and the inheritance of acquired characters[J].Nature,1942,150(3811):563-565.
[2]Holliday R.The inheritance of epigenetic defects[J].Science,1987,238(4824):163-170.
[3]Rassoulzadegan M,Grandjean V,Gounon P,et al.RNA-mediated non-mendelian inheritance of an epigenetic change in the mouse[J].Nature,2006,441(7092): 469-474.
[4]Wu C T,Morris J R.Genes genetics and epigenetics:a correspondence[J].Science,2001,29(3):1103-1105.
[5]Chan S W,Henderson I R,Jacobsen S E.Gardening the genome: DNA methylation in Arabidopsis thaliana[J].Nat Rev Genet,2005,6(5): 351-360.
[6]Adams K L,Percifield R,Wendel J F.Organ-specific silencing of duplicated genes in a newly synthesized cotton allotetraploid [J].Genetics,2004,168(4):2217-2226.
[7]Jullien P E,Kinoshita T,Ohad N,et al.Maintenance of DNA methylation during the Arabidopsis life cycle is essential for parental imprinting[J].Plant Cell,2006,18(1):1360-1372.
[8]Wang W,Zhao X,Pan Y,et al.DNA methylation changes detected by methylation-sensitive amplified polymorphism in two contrasting rice genotypes under salt stress[J].J Genet Genomics,2011,38(9):419-424
[9]Cao X,Springer N M,Muszynski M G,et al.Conserved plant genes with similarity to mammalian de novo DNA methyltransferases[J].Proc Natl Acad Sci USA,2000,97(9):4979-4984.
[10]Lindroth A M,Cao X,Jackson J P,et al.Requirement of CHROMOMETHYLASE3 for maintenance of Cp Xp G methylation[J].Science,2001,292(5524):2077-2080.
[11]Tompa R,Mc Callum C M,Delrow J,et al.Genome-wide profiling of DNA methylation reveals transposon targets of CHROMOMETHYLASES3 [J].Current Biology Cb,2002,12(1):65-68.
[12]沈佳尧,侯鹏,祭美菊,等.DNA甲基化方法研究现状[J].生命的化学,2003,23(2):149-151.
[13]Grant-Downton R T,Dickinson H G.Epigenetic and its implication for plant biology: 2.The ‘epigenetic Epiphang’:epigenetics,evolution and beyond[J].Annals of Botany,2006,97(1):11-27.
[14]盖树鹏,张风,张玉喜,等.低温解除牡丹休眠进程中基因组DNA甲基化敏感扩增多态性(MSAP)分析[J].农业生物技术学报,2012,20(3):261-267.
[15]Steward N,Ito M,Yamaguchi Y,Koizumi N,Sano H.Periodic DNA methylation in maize nucleosomes and demethylation by environmental stress[J].Journal of Biological Chemistry,2002,277(40): 37741-37746.
[16]石茹.马铃薯茎尖玻璃化法超低温保存及其遗传稳定性研究[D].青海:青海大学,2011:36-39.
[17]周艳华,曹红利,岳川,等.冷驯化不同阶段茶树DNA甲基化模式的变化[J].作物学报,2015,41(7):1047-1055.
[18]Burn J E,Bagnall D J,Metzger J D,et al.DNA methylation,vernalization,and the initiation of flowering[J].Proc Natl Acad Sci USA,1993,90(1):287-294.
[19]Zhang L,Wang Y,Zhang X H,et al.Dynamics of phytohormone and DNA methylation patterns changes during dormancy induction in strawberry(Fragaria ananassa Duch)[J].Plant Cell Rep,2012,31(1):155-165.
[20]Pan Y J,Wang W S,Zhao X Q,et al.DNA methylation alterations of rice in response to cold stress[J].Plant Omics,2011,4(7):364-369.
[21]Mayer B F,Ali-Benali M A,Demone J,et al.Cold acclimation induces distinctive changes in the chromatin state and transcript levels of COR genes in Cannabis sativa varieties with contrasting cold acclimation capacities[J].Physiologia Plantarum,2015,155(3):281-281.
[22]杨静.苦瓜耐低温研究机制 [D].武汉:华中农业大学,2008:11-15.
[23]Finnegan E J,Genger R K,Kovac K,et al.DNA methylation and the promotion of flowering by vernalization[J].Proc Natl Acad Sci USA,1998,95(10):5824-5829.
[24]Muhammad T,Jerzy P.DNA and histone methylation in plants[J].Trends in Genetics,2004,20(6):244-251.
[25]郑小梅,伍宁丰.DNA甲基化作用的生物学功能[J].中国农业科技导报,2009,11(1):33-39.
[26]魏华丽,杨文华,韩素英,等.表观遗传学在木本植物中的研究策略及应用[J].中国农业科学导报,2009,11(2):10-16.
[27]Jiang N,Bao Z,Zhang X,et al.An active DNA transposon family in rice [J].Nature,2003,421(6919):163-167.
[28]Song W Y,Pi L Y,Wang G L,et al,Ronald P C.Evolution of the rice Xa21 disease resistance gene family[J].Plant Cell,1997,9(8): 1279-1287.
[29]McClintock B.The significance of respons of the genome to challenge[[J].Science,1984,226(4676):792-801.
[30]Kovarik A,Koukalovd B,Bezdek M,et al.Hypermethylation of tobacoo heterochromatic loci in response to osmotic stress[J].Theoretical & Applied Genetics,1997,95(1-2):301-306.
[31]阳光.玉米苗期冷响应分子机理的研究[D].长春:吉林大学,2010:113-124.
[32]Hua Y,Chen X F,Xiong J H,et al.Isolation and analysis of differentially-methylated fragment CIDM7 in rice induced by cold stress[J].Hereditas ,2005,27(4):595-600.[33]Grunau C,Renault E,Rosenthal A,Roizes G.MethDB—a public database for DNA methylation data[J].Nucleic Acids Research,2001,29(1):270-274.
[34]Wassenegger M,Pelissier T.A model for RNA-mediated gene silencing in higher plants[J].Plant Mol Biol,1998,37(2):349-362.
[35]Curradi M,Izzo A,Badaracco G,Landsberger N.Molecular mechanisms of gene silencing mediated by DNA methylation[J].Molecular & Cellular Biology,2002,22(9):3157-3173.
[36]King G J.Morphological development in Brassica oleracea is modulated by in vivo treatment with 5-azacytidine[J].Journal of Horticultural & Biotechnology,1995,70(2):333-342.
[37]Li X L,Lin Z X,Nie Y C,et al.MSAP analysis of epigenetic changes in cotton(Gossypium hirsutum L) under salt stress[J].Acta Agron Sin ,2009,35(4):588-596.
[38]潘雅娇,傅彬英,王迪,等.水稻干旱胁迫诱导DNA甲基化时空变化特征分析[J].中国农业科学,2009,42(9):3009-3018.
[39]Richards E J.DNA methylation and plant development[J].Trends in Genet Tig,1997,13(8):319-323.
[40]Kalberer S R,Wisniewski M,Arora R.Deacclimation and reacclimation of cold-hardy plants: current understanding and emerging concepts[J].Plant Sci,2006,171(1):3-16.[41]Thomashow M F.Plant cold acclimation:Freezing tolerance genes and regulatory mechanisms[J].Annual Review of Plant Biology,1999,50(50): 571-599.
[42]Christov N K,Yoneyama S,Shimamoto Y,et al.Differential expression of wheat genes during cold acclimation[J].Cytol Genet,2007,41(3):142-150.
[43]Wang X C,Zhao Q Y,Ma C L,et al.Global transcriptome profiles of Camellia sinensis during cold acclimation[J].Bmc Genomics,2013,14(1): 415-423.

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备注/Memo

收稿日期:2017-06-24基金项目: 国家自然科学基金资助项目(51467014 )第一作者简介:孟德斌(1992-),男,内蒙古呼伦贝尔市人,在读硕士,从事环境生物物理研究。E-mail:328894077@qq.com。通讯作者:郭九峰(1964-),男,内蒙古赤峰市人,博士,研究员,硕士生导师,从事生物物理与生物技术研究。E-mail:guojf101@sina.com。

更新日期/Last Update: 2017-12-04