ZHU Hong-lin,SHA Ai-hua,FU Xiu-mei,et al.Cloning and Transformation Study of Transcription Factor GmLEC1 in Soybean[J].Soybean Science,2010,29(01):7-12.[doi:10.11861/j.issn.1000-9841.2010.01.0007]
转录调控基因GmLEC1转化大豆及转化方法的比较
- Title:
- Cloning and Transformation Study of Transcription Factor GmLEC1 in Soybean
- 文章编号:
- 1000-9841(2010)01-0007-06
- Keywords:
- Soybean; LEC1gene; RNA interference vector; Transformation; Cotyledon node; Embryonic tips
- 分类号:
- S565.1
- 文献标志码:
- A
- 摘要:
- 以高油大豆“中豆30”开花后30 d的发育种子为材料,根据已报道的拟南芥脂肪酸合成相关转录因子LEC1序列设计简并引物,采用同源序列法从大豆种子中分离了大小为850 bp的cDNA片段;采用Gateway技术构建RNAi表达载体pHGlec;分别利用大豆子叶节和胚尖为外植体进行农杆菌介导的遗传转化;以抗性芽获得率,PCR检测阳性率为指标,对转化系统进行优化。确定了6.0 mg·L-1的6-BA为胚尖转化法最佳激素配比;经PCR鉴定,优化后的胚尖转化法阳性苗获得率为7.58%,子叶节转化法转化率为1.86%。
- Abstract:
- The developing seeds of high-oil soybean“Zhongdou 30” were employed in this study.Degenerate primers were designed according to the reported sequence of transcription factor LEC1 related to fatty acid synthesis in Arabidopsis.A 850 bp cDNA fragment was isolated from soybean seed by homology-based candidate gene method.And RNAi vector pHGlec was constructed by Gateway technology.And then the vector was delivered into soybean via Agrobacterium-mediated transformation,using cotyledonary nodes and embryonic tips of soybean as explants.The rate of resistant shoots and the positive rate of PCR was used as criteria for selection the proper conditions.The results indicated that the optimal system of shoots elongation was 6.0 mg?L-1 of 6-BA for embryonic tips.The positive rate of PCR by optimized embryonic tips transformation system was 7.58%,and it was 1.86% by cotyledon nodes transformation system.
参考文献/References:
[1]Zou J T,Katavic V,Giblin E M,et al.Modification of seed oil content and acyl composition in the brassicaceae by expression of a yeast sn-2 acyltransferase gene[J].Plant Cell,1997,9:909- 923. [2]Taylor D C,Katavic V,Zou J T,et al.Field testing of transgenic rapeseed cv.Hero transformed with a yeast sn-2 acyltransferase results in increased oil content,erucic acid content and seed yield[J].Molecular Breeding,2002,8:317-322. [3]Roesler K,Shintani D,Savage L,et al.Targeting of the Arabidopsis homomeric acetyl-coenzyme a carboxylase to plastids of rapeseeds[J].Plant Physiology,1997,113:75-81. [4]陈锦清,郎春秀,胡张华,等.反义PEP基因调控油菜籽粒蛋白质/油脂含量比率的研究[J].农业生物技术学报,1999,7(4):316-320.(Chen J Q,Lang C X,Hu Z J,et al.Antisense PEP gene regulates to ratio of protein and lipid content in Brassica Napus seeds[J].Journal of Agricultural Biotechnology,1999,7(4):316-320.) [5]赵桂兰,陈锦清,尹爱萍,等.获得转反义PEP基因超高油大豆新材料[J].分子植物育种,2005,3(6):792-796.(Zhao G L,Chen J Q,Yin A P,et al.Transgenic soybean lines harbouring Anti-PEP gene express super-high oil content[J].Molecular Plant Breeding,2005,3(6):792- 796.) [6]Ramli U S,Baker D S,Quant P A,et al.Control analysis of lipid biosynthesis in tissue cultures from oil crops shows that flux control is shared between fatty acid synthesis and lipid assembly[J].Biochemistry Journal,2002,364:393- 401. [7]Meinke D W,Franzmann L H,Nickle T C,et al.Leafy cotyledon mutants of Arabidopsis[J].Plant Cell,1994,6 :1049- 1064. [8]Lotan T,Ohto M,Yee K M,et al.Arabidopsis?leafy cotyledon1 is sufficient to induce embryo development in vegetative cells[J].Cell,1998,93:1195-1205. [9]盖钧镒.发展我国大豆遗传改良事业解决国内大豆供给问题[J].中国工程科学,2003,5(5):1- 6.(Gai J Y.Expanding and enhancing the research allocation on soybean breeding and genetics for the establishment of market supply based on domestic production[J].Engineering Science,2003,5(5):1-6.) [10]Hinchee M A W,Connor-Ward D V,Newell C A,et al.Production of transgenic soybean plants using Agrobacterium- mediated DNA transfer[J].Biological Technology,1988,6:915- 922. [11]王昌陵,赵军,李英慧,等.转录因子ABP9转化大豆(Glycine max L.)及遗传转化条件优化[J].中国农业科学,2008,41(7):1908- 1916.(Wang C L,Zhao J,Li Y H,et al.Transforming transcription factor ABP9 into soybean and optimization of the transformation system[J].Scientia Agricultura Sinica,2008,41(7):1908-1916.) [12]Meurer C A,Dinkins R D,Collins G B.Factors affecting soybean cotyledon node transformation[J].Plant Cell Report,1998,18:180- 186. [13]Ko T S,Lee S,Krasnyanski S,et al.Two critical factors are required for efficient transformation of multiple soybean cultivars:Agrobacterium?strain and orientation of immature cotyledonary explant[J].Theoretical and Applied Genetics,2003,107:439- 447. [14]Ko T S,Nelson R L,Korban S S.Screening multiple soybean cultivars(MG 00 to MG VIII)for somatic embryogenesis following Agrobacterium-mediated transformation of immature cotyledons[J].Crop Science,2004,44(5):1825- 1831. [15]Olhoft P M,Somers D A.L- Cysteine increases Agrobacterium-mediated T-DNA delivery into soybean cotyledonary- node cells[J].Plant Cell Report,2001,20(8):706-711. [16]Olhoft P M,Flagel L E,Donovan C M,et al.Efficient soybean transformation using hygromycin B selection in the cotyledonary- node method[J].Planta,2003,5:723- 735. [17]Liu H K,Yang C,Wei Z M.Efficient Agrobacterium tumefaciens-mediated transformation of soybeans using an embryonic tip regeneration system[J].Planta,2004,219:1042-1049.
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备注/Memo
基金项目:中国农业科学院油料作物研究所资助项目;国家高技术研究发展计划资助项目(2006AA100104)。