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激发标签技术在植物功能基因组研究中的应用 被引量:1

Activation tagging and its application in plant functional genomics research
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摘要 获得突变体是研究植物功能基因组的有效方法。与传统的T-DNA插入功能缺失突变相比,建立在功能获得突变基础之上的激发标签技术具有独特的优势,主要表现为可以获得功能冗余基因的显性突变体并方便地克隆相关基因。文章对激发标签技术的原理,及其在拟南芥、水稻等植物功能基因组研究中的进展进行了综述,并介绍了激发标签技术在植物抗逆、抗病和生长发育机理研究方面的新进展。文章最后探讨了激发标签技术的发展前景。 It is a practical strategy to screen for mutants in the research of plant functional genomics. Comparing with classical T-DNA knock-out mutagenesis technology by the loss-of-function mutation, the activation T-DNA tagging technique based on the gain-of-function mutation has its own particular advantages, mainly characterized by producing dominant mutants of genes with functional redundancy and easily cloning of the genes. First, the basic principle of activation tagging, and the progress of its application in the research on plant functional genomics was reviewed, especially in Arabidopsis and rice. The recent research progress in the mechanism of plant biotic and abiotic stress tolerance and of plant development unraveled by the method of activation tagging was then addressed. Finally, the limitation and prospects of this technique were discussed.
作者 李志邈 杨悦俭 王荣青 周国治 阮美颖 叶青静 姚祝平
机构地区 浙江省农业科学院蔬菜研究所
出处 《遗传》 CAS CSCD 北大核心 2008年第3期283-288,共6页 Hereditas(Beijing)
基金 浙江省自然科学基金(编号:Y305280)资助~~
关键词 激发标签 功能获得突变 植物功能基因组 activation tagging gain-of-function mutation plant functional genomics
分类号 Q943.2 [生物学—植物学] O571.2 [理学—粒子物理与原子核物理]
  • 相关文献

参考文献35

  • 1Arabidopsis Genome Initiative.Analysis of the genome sequence of the flowering plant Arabidopsis thaliana.Nature,2000,408:796-815.
  • 2Kardailsky I,Shukla VK,Ahn JH,Dagenais N,Christensen SK,Nguyen JT,Chory J,Harrison MJ,Weigel D.Activation tagging of the floral inducer FT.Science,1999,286:1962-1965.
  • 3Ito T,Meyerowitz EM.Overexpression of a gene encoding a cytochrome P450,CYP78A9,induces large and seedless fruit in Arabidopsis.Plant Cell,2000,12:1541-1550.
  • 4Borevitz JO,Xia Y,Blount J,Dixon RA,Lamb C.Activation tagging identifies a conserved MYB regulator of phenylpropanoid biosynthesis.Plant Cell,2000,12:2383-2393.
  • 5Huang S,Cerny RE,Bhat DS,Brown SM.Cloning of an Arabidopsis Patatia-like gene,STURDY,by activation T-DNA tagging.Plant Physiol,2001,125:573-584.
  • 6Nakazawa M,Yabe N,Ichikawa T,Yamamoto YY,Yoshizumi T.Hasunuma K,Matsui M.DFL1,an auxin-responsive GH3 gene homologue,negatively regulates shoot cell elogation and lateral root formation,and positively regulates the light response of hypocotyls length.Plant J,2001,25:213-221.
  • 7Nakazawa M,Ichikawa T,Ishikawa A,Kobayashi H,Tsuhara Y,Kawashima M,Suzuki K,Muto S,Matsui M.Activation tagging,a novel tool to dissect the functions of a gene family.Plant J,2003,34:741-750.
  • 8Park DH,Lim PO,Kim JK,Cho DS,Hong SH,Nam HG.The Arabidopsis COG1 gene encodes a Dof domain transcription factor and negatively regulates phytochrome signaling.Plant J,2003,34:161-171.
  • 9Woodward C,Bemis SM,Holl EJ,Sawa S,Koshiba T,Torii KU.Interaction of auxin and ERECTA in elaborating Arabidopsis inflorescence architecture revealed by the activation tagging of a new member of the YUCCA family putative flavin monooxygenases.Plant Physiol,2005,139:192-203.
  • 10Schneider A,Kirch T,Gigolashvili T,Mock HP,Sonnewald U,Simon R,Flfigge UI,Werr W.A transposon-based activation-tagging population in Arabidopsis thaliana (TAMARA)and its application in the identification of dominant developmental and metabolic mutations.FEBS Lett,2005,579:4622-4628.

二级参考文献33

  • 1[3]Borevitz JO, Xia Y, Blount J, Dixon RA, Lamb C (2000).Activation tagging identifies a conserved MYB regulator of phenylpropanoid biosynthesis. Plant Cell, 12: 2383-2393
  • 2[4]Busov VB, Meilan R, Pearce DW, Ma C, Rood SB, Strauss SH(2003). Activation tagging of a dominant gibberellin catabolism gene (GA 2-oxidase) from poplar that regulates tree stature. Plant Physiol, 132:1283-1291
  • 3[5]Chalfun-Junior A, Mes J J, Mlynarova L, Aarts MGM, Angenent GC (2003). Low frequency of T-DNA based activation tagging in Arabidopsis is correlated with methylation of CaMV 35S enhancer sequences. FEBS Lett, 555: 459-463
  • 4[6]Clough S J, Bent AF (1998). Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thalina. Plant J, 16(6): 735-743
  • 5[7]Huang S, Cerny RE, Bhat DS, Brown SM (2001). Cloning of an Arabidopsis patatin-like gene, STURDY, by activation TDNA tagging. Plant Physiol, 125:573-584
  • 6[8]Ichikawa T, Nakazawa M, Kawashima, M, Muto S, Gohda K,Suzuki K, Ishikawa A, Kobayashi H, Yoshizumi T,Tsumoto Y et al. (2003). Sequence database of 1172 TDNA insertion sites in Arabidopsis activation-tagging lines that showed phenotypes in T1 generation. Plant J, 36:421-429
  • 7[9]Ito T, Meyerowitz EM (2000). Overexpression of a gene encoding a cytochrome P450, CYP78A9, induces large and seedless fruit in Arabidopsis. Plant Cell, 12: 1541-1550
  • 8[10]Kardailsky I, Shukla VK, Ahn JH, Dagenais N, Christensen SK, Nguyen JT, Chory J, Harrison MJ, Weigel D (1999).Activation tagging of the floral inducer FT. Science, 286:1962-1965
  • 9[11]Liu YG, Mitsukawa N, Oosumi T, Whittier RF (1995). Efficient isolation and mapping of Arabidopsis thaliana T-DNA insert junctions by thermal asymmetric interlaced PCR.Plant J, 8:457-463
  • 10[12]Marsch-Martinez N, Greco R, Arkel GV, Herrera-Estrella L,Pereira A (2002). Activation tagging using the En-I maize transposon system in Arabidopsis. Plant Physiol, 129:1544-1556

共引文献21

同被引文献29

  • 1耿立召,刘传亮,李付广.农杆菌介导法与基因枪轰击法结合在植物遗传转化上的应用[J].西北植物学报,2005,25(1):205-210. 被引量:16
  • 2栾维江,孙宗修.Ac/Ds标签系统与水稻功能基因组学[J].植物生理与分子生物学学报,2005,31(5):441-450. 被引量:12
  • 3陈双臣,刘爱荣,邹志荣.转葡聚糖酶和防御素基因的番茄植株及其对番茄灰霉病的抗性[J].植物保护学报,2006,33(4):357-362. 被引量:18
  • 4WAN S Y,WU J X,ZHANGh Z G,SUN X H,LU Y C,GAO C,NING Y D,MA J,GUO Y P,ZHANG Q,ZHENG X,ZHANG C Y,MA Z Y,LU T G.Activation tagging,an efficient tool for functional analysis of the rice genome[J].Plant Molecular Biology,2009,69(1-2):69-80.
  • 5JONES D A,THOMAS C M,HAMMOND-KOSACK K E,BALINT-KURTI P J,JONES J D G.Isolation of the tomato Cf-9 gene for resistance to Cladosporium fulvum by transposon tagging[J].Science,1994,266(5 186):789-793.
  • 6TAKKEN F,SCHIPPER D,NIJKAMP H,HILLE J.Identification and Ds-tagged isolation of a new gene at the Cf-4 locus of tomato involved in disease resistance to Cladosporium fulvum race 5[J].The Plant Journal,1998,14(4):401-411.
  • 7BISHOP G,HARRISON K,JONES J D G.The tomato dwarf gene isolated by heterologous transposon tagging encodes the first member of a new cytochrome P450 family[J].Plant Cell,1996,8(6):959-969.
  • 8KEDDIE J S,CARROLL B,JONES J D G,GRUISSEM W.The DCL gene of tomato is required for chloroplast development and palisade cell morphogenesis in leaves[J].The EMBO Journal,1996,15(16):4 208-4 217.
  • 9VAN DER B E,BRANDWAGT B,VAN LEEUWEN W,NIJKAMP H,HILLE J.Identification and isolation of the FEEBLY gene from tomato by transposon tagging[J].Molecular Genetics and Genomics,1996,251(3):267-280.
  • 10KEDDIE J S,CARROLL B J,THOMAS C M.Transposon tagging of the defective embryo and meristems gene of tomato[J].Plant Cell,1998,10(6):877-888.

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