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南京农业大学学报 2008

野芥菜向抗除草剂转基因油菜基因流动的研究

DOI: 10.7685/j.issn.1000-2030.2008.04.009, PP. 49-54

王舟,宋小玲,皇甫超河,强胜

Keywords: 抗草丁膦转基因油菜,抗草甘膦转基因油菜,野芥菜,基因流,适合度

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Abstract:

采用人工授粉的方法,分别以转基因抗草丁膦和抗草甘膦油菜为母本,野芥菜为父本,研究野芥菜的基因流动到转基因油菜中的可能性。结果表明,野芥菜和抗草丁膦及抗草甘膦油菜的亲和性指数明显低于其自交授粉的亲和性指数,只有0.44和0.54。经除草剂筛选和PCR检测证明,所有F1都携带了相应的抗性基因并表现出对相应除草剂的抗性。对F1的适合度研究表明,两种F1种子萌发率及营养生长情况和野芥菜没有明显差异,但结实明显下降,携带抗草丁膦基因的F1和携带抗草甘膦基因的F1每个角果饱满种子粒数分别是0.50和0.61。分别以两种F1为母本,野芥菜为父本进行回交,结实仍然很低,携带抗草丁膦基因的F1和携带抗草甘膦基因的F1与野芥菜回交每个角果饱满种子粒数分别只有0.35和0.33。上述结果表明,野芥菜基因流动到两种抗性油菜的可能性均比较小。

References

[1]	Jφrgensen R B,Andersen B,Hauser T P.Introgression of crop genes from oilseed rape(Brassica napus)to related wild species:an avenue for the escape of engineered genes[J].Acta Horticulturae.1998,459:211-217
[2]	蒲惠明,戚存扣,张洁夫.转基因抗除草剂油菜对十字花科杂草的基因漂移[J].生态学报.2005,25(4):910-916
[3]	宋小玲,强胜.三种类型油菜(Brassica spp.)和野芥菜(B.juncea var.gracilis Tsen et Lee)杂交亲和性及F1的适合度--潜在基因转移的研究[J].应用与环境生物学报.2003,9(4):357-361
[4]	王新发,王汉中,刘贵华.导入双价基因的转基因杂交油菜亲本及其对菌核病抗性的研究[J].植物学通报.2005,22(3):292-301
[5]	魏伟,马克平,石纪成.GMOs:生态学研究中的新热点[J].科学通报.2003,48(17):1890-1892
[6]	Hauser T P,Damgaard C,J？rgensen R B.Frequency-dependent fitness of hybrids between oilseed rape(Brassica napus) and weedy B.rapa(Brassicaceae)[J].American Journal of Botany.2003,90(4):571-578
[7]	Gueritaine G,Sester M,Eber F.Fitness of backcross six of hybrids between transgenic oilseed rape(Brassica napus)and wild radish(Raphanus raphanistrum)[J].Molecular Ecology.2002,11:1419-1426
[8]	Lu C M,Kato M,Kakihara F.Destiny of a transgene escape from Brassica napus in to Brassica rapa[J].Theoretical and Applied Genetics.2002,105:78-84
[9]	赵祥祥,陆卫平,戚存扣.通过杂交亲和性评估外源抗除草剂基因在十字花科植物间的流动[J].科学通报.2005,50(16):1731-1737
[10]	卢长明,肖玲,武玉花.中国转基因油菜的环境安全性分析[J].农业生物技术学报.2005,13(3):267-275
[11]	Dale P J.Spread of engineered genes to wild relatives[J].Plant Physiology.1992,100:13-15
[12]	郭青云,涂鹤龄,邱学林.野芥菜田间发生规律与防除技术研究[J].青海农林科技.1998(4):38-41
[13]	Bing D J,Downey R K,Rakow G F W.Hybridizations among Brassica napus,B.rapa and B.juncea and their two weedy relatives B.nigra and Sinapis arvensis under open pollination conditions in the field[J].Plant Breeding.1996,115:470-473
[14]	宋小玲,皇甫超河,强胜.抗草丁膦和抗草甘膦转基因油菜的抗性基因向野芥菜的流动[J].植物生态学报.2007,31(4):729-737
[15]	苏少泉.草铵膦述评[J].农药.2005,44(12):529-532
[16]	杨逢玉,张宏军,倪汉文.灭生性除草剂草铵膦的作用机理及其应用[J].北京农学院学报.2002,17(4):100-105
[17]	官春云.油菜的转基因育种[J].中国油料作物学报.2005,27(1):97-103
[18]	Jenczewski E,Ronfort J,Chèvre A-M.Crop-to-wild gene flow,introgression and possible fitness effects of transgenes[J].Environ Biosafety Res.2003,2:9-24
[19]	Baranger A,Chèvre A-M,Eber F.Effect of oilseed rape genotype on the spontaneous hybridization rate with a weedy species:an assessment of transgene dispersal[J].Theoretical and Applied Genetics.1995,91:956-963
[20]	Goy P A,Duesing J H.Assessing the environmental impact of gene transfer to wild relatives[J].Bio-technology.1996,14:39-40
[21]	Hauser T P,Jorgensen R B,Ostergard H.Fitness of backcross and F2 hybrids between weedy Brassica rapa and oilseed rape(B.napus)[J].Heredity.1998,81:436-443
[22]	Crawley M J,Brown S L,Hails R S.Transgenic crops in natural habitats[J].Nature.2001,409:682-683
[23]	Darmency H,Fleury A.Mating system in Hirschfeldia incana and hybridization to oilseed rape[J].Weed Research.2000,40:231-238
[24]	Chévre A-M,Eber F,Baranger A.Gene flow from transgenic crops[J].Nature.1997,389:924
[25]	Vacher C,Weis A E,Hermann D.Impact of ecological factors on the initial invasion of Bt transgenes into wild populations of birdseed rape(Brassica rapa)[J].Theoretical and Applied Genetics.2004,109:806-814
[26]	Lu B R,Snow A A.Gene flow from genetically modified rice and its environmental consequences[J].Bioscience.2005,55(8):669-678
[27]	赵祥祥,夏秋霞,陆大雷.转抗除草剂基因油菜与5种十字花科杂草的基因流研究[J].自然科学进展.2006,16(7):822-827
[28]	李健,官春云,李？.转基因油菜的外源Barstar基因向近缘种的转移研究[J].湖南农业大学学报(自然科学版).2006,32(6):591-595
[29]	蒲惠明.转基因抗除草剂油菜及其生态安全性[J].中国油料作物学报.2003,25(2):89-93

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