A callus transformation system for gene functional studies in soybean

文献类型: 外文期刊

第一作者: Xu Kun

作者: Xu Kun;Zhang Xiao-mei;Fan Cheng-ming;Chen Fu-lu;Zhu Jin-long;Fu Yong-fu;Zhang Shi-long;Chen Qing-shan

作者机构:

关键词: soybean callus;gene function studies;transformation

期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:2.848; 五年影响因子:2.979 )

ISSN: 2095-3119

年卷期: 2017 年 16 卷 9 期

页码:

收录情况: SCI

摘要: Obtaining transgenic plants is a common method for analyzing gene function. Unfortunately, stable genetic transformation is difficult to achieve, especially for plants (e.g., soybean), which are recalcitrant to genetic transformation. Transient expression systems, such as Arabidopsis protoplast, Nicotiana leaves, and onion bulb leaves are widely used for gene functional studies. A simple method for obtaining transgenic soybean callus tissues was reported recently. We extend this system with simplified culture conditions to gene functional studies, including promoter analysis, expression and subcellular localization of the target protein, and protein-protein interaction. We also evaluate the plasticity of this system with soybean varieties, different vector constructs, and various Agrobacterium strains. The results indicated that the callus transformation system is efficient and adaptable for gene functional investigation in soybean genotype-, vector-, and Agrobacterium strain-independent modes. We demonstrated an easy set-up and practical homologous strategy for soybean gene functional studies.

分类号:

  • 相关文献

[1]Histological and Ultrastructural Observation Reveals Significant Cellular Differences between Agrobacterium Transformed Embryogenic and Non-embryogenic Calli of Cotton. Shang, Hai-Hong,Liu, Chuan-Liang,Zhang, Chao-Jun,Li, Feng-Lian,Hong, Wei-Dong,Li, Fu-Guang.

[2]Variant Amino Acid Residues Alter the Enzyme Activity of Peanut Type 2 Diacylglycerol Acyltransferases. Zheng, Ling,Wan, Shubo,Peng, Zhenying,Zheng, Ling,Bian, Fei,Chen, Gao,Shan, Lei,Li, Xinguo,Wan, Shubo,Peng, Zhenying,Shockey, Jay. 2017

[3]Transformation of Liquidambar formosana L. via Agrobacterium tumefaciens using a mannose selection system and recovery of salt tolerant lines. Qiao, Guirong,Zhou, Jing,Jiang, Jing,Sun, Yuehua,Pan, Luanyin,Song, Honggai,Jiang, Jingmin,Zhuo, Renying,Sun, Yuehua,Wang, Xiaojuan,Sun, Zongxiu,Sun, Yuehua. 2010

[4]Improvement of Agrobacterium-mediated transformation efficiency of maize (Zea mays L.) genotype Hi-II by Optimizing Infection and Regeneration Conditions. Xu, You,Ren, Wen,Liu, Ya,Zhao, Jiuran,Xu, You. 2016

[5]Progress in chloroplast genome analysis. Liu, Clarke Jihong,Xing Shao-Chen. 2008

[6]Protoplast transformation as a potential platform for exploring gene function in Verticillium dahliae. Rehman, Latifur,Su, Xiaofeng,Guo, Huiming,Qi, Xiliang,Cheng, Hongmei. 2016

[7]Production of Bioactive Recombinant Bovine Chymosin in Tobacco Plants. Wei, Zheng-Yi,Fan, Ming-Xia,Lin, Feng,Wei, Zheng-Yi,Zhang, Yu-Ying,Wang, Yun-Peng,Zhong, Xiao-Fang,Xing, Shao-Chen,Zhang, Yu-Ying,Xu, Nuo. 2016

[8]Regeneration of Chinese cabbage transgenic plants expressing antibacterial peptide gene and cowpea trypsin inhibitor gene. Zhao, Junliang,Liang, Aihua,Zhu, Zhen,Tang, Yixiong. 2006

[9]Transformation of sulfate and organic S in rice straw in flooded paddy soils and its availability to plants using sulfur-35 labeling. Zhou, W,Li, ST,He, P,Lin, B. 2006

[10]A new time-saving transformation system for Brassica napus. Kong, Fanming,Li, Juan,Tan, Xiaoli,Zhang, Lili,Zhang, Zhiyan,Ma, Xiaoke,Qi, Cunkou. 2009

[11]Transient beta-glucuronidase expression in asparagus protoplasts following electroporation. Chen, GY,Conner, AJ,Fautrier, AG,Field, RJ. 1999

[12]Enhancement of salt tolerance in alfalfa transformed with the gene encoding for betaine aldehyde dehydrogenase. Liu, Zi-Hui,Zhang, Hong-Mei,Li, Guo-Liang,Guo, Xiu-Lin,Zhang, Yan-Min,Liu, Zi-Hui,Zhang, Hong-Mei,Li, Guo-Liang,Guo, Xiu-Lin,Zhang, Yan-Min,Chen, Shou-Yi,Liu, Gui-Bo. 2011

[13]An efficient protocol for the production of chit42 transgenic Furenzhi banana (Musa spp. AA group) resistant to Fusarium oxysporum. Hu, Chun-Hua,Wei, Yue-Rong,Huang, Yong-Hong,Yi, Gan-Jun,Hu, Chun-Hua,Wei, Yue-Rong,Huang, Yong-Hong,Yi, Gan-Jun. 2013

[14]Agrobacterium-mediated transformation of durum wheat (Triticum turgidum L. var. durum cv Stewart) with improved efficiency. Jones, H. D.,Li, K. X.,He, Y.,Chen, S.,Chen, X. M.,Wang, D. S.,Xia, L. Q.,Wang, D. W.. 2010

[15]Gene transfer strategy for kiwifruit to obtain pure transgenic plant through inducing adventitious roots in leaf explants with Agrobacterium tumefaciens. Li, M,Huang, ZG,Han, LX,Zhao, GR,Li, YH. 2003

[16]Research Progress on Transformation Maize Mediated by Agrobacterithm Tumefaciens. Li, Xiuping,Li, Xiuping,Jiang, Lijing,Liu, Na. 2011

[17]Agrobacterium tumefaciens-mediated transformation of poinsettia, Euphorbia pulcherrima, with virus-derived hairpin RNA constructs confers resistance to Poinsettia mosaic virus. Clarke, Jihong Liu,Spetz, Carl,Haugslien, Sissel,Xing, Shaochen,Dees, Merete W.,Blystad, Dag-Ragnar,Xing, Shaochen,Dees, Merete W.,Moe, Roar. 2008

[18]Transformation of deoxynivalenol and its acetylated derivatives in Chinese steamed bread making, as affected by pH, yeast, and steaming time. Wang, Bujun.

[19]ELEVATED ENDOGENOUS ISOPENTENYL ADENINE CONTENT IS CORRELATED WITH AN EXTREMELY SHOOTY RICE PHENOTYPE. ZHU, YX,QIN, RZ,SHAN, XY,CHEN, ZL.

[20]Screening and identification of insertion mutants from Bipolaris eleusines by mutagenesis based on restriction enzyme-mediated integration. Zhang Jianping,Duan Guifang,Zhu Kai,Zhou Yongjun,Lu Yongliang,Yu Liuqing.

作者其他论文 更多>>

微信小程序