Research Progress of Castor Bean Breeding and Related Genetic Engineering
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摘要:
蓖麻是被称为“绿色石油资源”的油料作物,可解决石油短缺问题,具有重要的经济价值。提高蓖麻产量是蓖麻育种研究领域的热点内容,近几年对蓖麻的研究越来越多,旨在提高蓖麻产量及研究蓖麻新品种。综述了蓖麻在育种及基因工程方面的相关研究,为进一步深入研究蓖麻新品种、提高蓖麻产量奠定理论基础。
Abstract:Castor is an oil crop known as "green oil resource", which can solve shortage of oil and has important economic value.Increasing yield of castor is a hot topic in field of castor breeding research.In recent years, more and more studies have been conducted on castor, aiming at increasing yield of castor and researching new varieties of castor.Related researches on breeding and genetic engineering of castor were summarized, and a theoretical foundation for further in-depth study of new varieties of castor and improving yield of castor was laied.
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Keywords:
- castor /
- genetic engineering /
- breeding
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[1] 郑鹭,祁建民,陈绍军,等.蓖麻遗传育种进展及其在生物能源与医药综合利用潜势[J].中国农学通报,2006,22(9):109-113.ZHENG Lu,QI Jianmin,CHEN Shaojun,et al.Inheritance breeding research of castor-oil plant and its potential utilization in biological energy sources and medicament[J].Chinese Agricultural Science Bulletin,2006,22(9):109-113. [2] 杨光义,叶方,王刚,等.蓖麻子药效成分分离纯化和药理作用研究概述[J].中国药师,2011,14(4):552-554. [3] 陈志慧.蓖麻毒蛋白的研究与应用进展[J].化学世界,2005,46(5):309-312. doi: 10.3969/j.issn.0367-6358.2005.05.017CHEN Zhihui.Progress on research and application of ricin[J].Chemical World,2005,46(5):309-312. doi: 10.3969/j.issn.0367-6358.2005.05.017 [4] 王润弟.蓖麻油煎鸡蛋引产与催产素引产的临床分析[J].基层医学论坛,2010,14(17):497. doi: 10.3969/j.issn.1672-1721.2010.17.015 [5] 刘丽芬,柴天川,崔文华.引产餐醇提取物对大鼠子宫的影响[J].时珍国医国药,2008,19(4):820-821.LIU Lifen,CHAI Tianchuan,CUI Wenhua.Effects of castor oil diet extract on the uterus of rats[J].Lishizhen Medicine and Materia Medica Research,2008,19(4):820-821. [6] 陈玉杰.蓖麻油餐对300例晚期妊娠催产引产临床分析[J].临床心身疾病杂志,2006,12(4):308-309. [7] 赵秀平,李国瑞,狄建军,等.蓖麻LRR-RKsⅡ家族和LRR-RKsⅩ家族的生物信息学分析[J].内蒙古民族大学学报(自然科学版),2019,34(3):221-230.ZHAO Xiuping,LI Guorui,DI Jianjun,et al.Bioinformatics Analysis of LRR-RKs Ⅱ and LRR-RKsX Families of Castor[J].Journal of Inner Mongolia University for Nationalities (Natural Science Edition),2019,34(3):221-230. [8] 张红菊,赵怀勇.蓖麻对盐渍土的改良效果研究[J].中国水土保持,2010(7):43- 44,66. [9] 刘骁,李端.蓖麻碱的生物活性研究与应用开发前景[J].中国药理学与毒理学杂志,2006,20(1):76-78.LIU Yao,LI Rui.Biological activity of ricinine and outlook of its applied development[J].Chinese Journal of Pharmacology and Toxicology,2006,20(1):76-78. [10] FERRAZ A C,ANSELMO-FRANCI J A,PEROSA S R,et al.Amino acid and monoamine alterations in the cerebral cortex and hippocampus of mice submitted to ricinine-induced seizures[J].Pharmacol Biochem Behavior,2002,72(4):779-786. doi: 10.1016/S0091-3057(02)00750-5 [11] MEGAUGH J L.Drug facilitation of learning and memory[J].Annu Rev Pharmacol,1973,13:229-241. doi: 10.1146/annurev.pa.13.040173.001305 [12] 王金妹,阮成江,黄明月,等.蓖麻耐盐性的初步研究[J].河南农业科学,2011,40(5):67-73.WANG Jinmei,RUAN Chengjiang,HUANG Mingyue,et al.Preliminary study of salt-tolerant of castor[J].Journal of Henan Agricultural Sciences,2011,40(5):67-73. [13] 尹秀玲.蓖麻毒素的开发利用[J].生物学杂志,1998,15(2):3. [14] 赵建兴,张树怀,余国珍,等.蓖麻毒素粗提物杀虫作用的研究[J].内蒙古农业大学学报,2001,22(4):78-80.ZHAO Jianxing,ZHANG Shuhuai,YU Guozhen,et al.Insecticidal effect of raw extracts of coster bean toxin[J].Journal of Inner Mongolia Agricultural University,2001,22(4):78-80. [15] 罗蕊.EPSPS基因与Bar基因的克隆及在蓖麻中的功能验证[D].通辽: 内蒙古民族大学, 2015.LUO Rui.EPSPS Gene and Bar Gene cloning and functional verification of the castor[D].Tongliao: Inner Mongolia Minzu University, 2015. [16] 林岩,陆建飞,周桂生.基于产业链视角的中国蓖麻产业发展的分析[J].中国农学通报,2011,27(29):124-127.LIN Yan,LU Jianfei,ZHOU Guisheng.Analysis of castor industry in China based on industrial chain perspective[J].Chinese Agricultural Science Bulletin,2011,27(29):124-127. [17] 朱国立,吴国林,李金芹,等.通辽市蓖麻生产现状及发展产业化对策[J].内蒙古农业科技,2004(S1):27-28. [18] 季志强,董学,高立起,等.浅议蓖麻产业发展优势和前景[J].农业科技通讯,2010(2):8-9. [19] 李敬忠,张宝贤,王伟男,等.我国蓖麻育种与栽培技术研究进展[J].农业科技通讯,2018(10):198-200. doi: 10.3969/j.issn.1000-6400.2018.10.074 [20] 张维锋,赵守贤.国外蓖麻育种与遗传研究动态[J].中国油料作物学报,1988(1):90. [21] CLAASSEN C E,HOFFMAN A.Inheritance of the pistillate character in castors and its possible utilization in the production of commercial hybrid seed[J].Agronomy Journal,1950,42(2):79-82. doi: 10.2134/agronj1950.00021962004200020002x [22] SHIFRISS O.Conventional and unconventional systems controlling sex variations inRicinus[J].Journal of Genetics,1960,57(2/3):361-388. [23] ZIMMERMAN L H,SMITH J D.Production of F1 seed in castorbeans by use of sex genes sensitive to environment[J].Crop Science,1966,6(5):406-409. doi: 10.2135/cropsci1966.0011183X000600050005x [24] 李燕敏,祁显涛,刘昌林,等.除草剂抗性农作物育种研究进展[J].作物杂志,2017(2):1-6.LI Yanmin,QI Xiantao,LIU Changlin,et al.Progress of crop breeding on resistance to herbicides[J].Crop Magazine,2017(2):1-6. [25] 白建明,刘树清.中国蓖麻杂种优势育种研究的现状及建议[J].云南农业科技,2007(1):58-61. doi: 10.3969/j.issn.1000-0488.2007.01.031 [26] 张宝贤,孙丽娟,刘红光,等.蓖麻杂交新品种丰产性及稳定性试验初报[J].中国农学通报,2010,26(3):126-128.ZHANG Baoxian,SUN Lijuan,LIU Hongguang,et al.The preliminary report of yielding ability and stability test of castor new hybrids[J].Chinese Agricultural Science Bulletin,2010,26(3):126-128. [27] 朱国立,顾名勋.蓖麻核型雌性系86-13[J].中国油料作物学报,1989(3):73. [28] 朱国立,顾名勋.蓖麻标志雌性系选育及其遗传性[J].中国油料,1990(3):4. [29] 李靖霞,赵桂荣,于金刚.辐射诱变在蓖麻育种上的应用研究[J].内蒙古农业科技,2007(1):73-74. [30] 朱国立,李金琴,田福东,等.蓖麻新品种哲蓖4号的选育研究[J].中国油料作物学报,2000,22(4):23- 24,28.ZHU Guoli,LI Jinqin,TIAN Fudong,et al.Breeding of a new castor cultivar:Zhebi No. 4[J].Chinese Journal of Oil Crops,2000,22(4):23- 24,28. [31] 田清震,郑洪源,郭志强.单雌蓖麻的研究与应用[J].中国油料作物学报,2001,23(3):69- 71,76. doi: 10.3321/j.issn:1007-9084.2001.03.021 [32] 张维锋,梁一刚.蓖麻拟三系配套技术的研究[J].作物学报,1999,25(3):392-395.ZHANG Weifeng,LIANG Yigang.Study on technical system about the simulating three-line in castor bean[J].Journal of Crops,1999,25(3):392-395. [33] 张宝贤,王光明,刘红光,等.蓖麻种质资源创新及育种方向研究(英文)[J].农业科学与技术(英文版),2013,14(1):40- 43,115.ZHANG Baoxian,WANG Guangming,LIU Hongguang,et al.Germplasm resource innovation and breeding direction of castor[J].Agricultural Science & Technology,2013,14(1):40- 43,115. [34] 李思琪.蓖麻稳定遗传转化体系的建立及优化[D].哈尔滨: 东北林业大学, 2021.LI Siqi.Establishment and optimization of stable genetic transformation system in castor[D].Harbin: Northeast Forestry University, 2021. [35] OKADA K,ITO T,FUKAZAWA J,et al.Gibberellin induces an increase in cytosolic Ca2+ via a DELLA-independent signaling pathway[J].Plant Physiol,2017(4): 1536 - 1542. [36] 韩雯毓,李国瑞,李威,等.蓖麻RcDELLA基因的克隆与功能鉴定[J].植物生理学报,2019,55(12): 1769- 1776.HAN Wenyu,LI Guorui,LI Wei,et al.Cloning and functional identification of RcDELLA gene in castor bean[J].Plant Physiology Communications,2019,55(12): 1769 - 1776. [37] 风兰.高、矮秆蓖麻转录组分析及RcBKI1和RcGASA9基因的功能研究[D].通辽: 内蒙古民族大学, 2020.FENG Lan.Transcriptome analysis of high-stalk and dwarf castor and functional studies of RcBKII and RcGASA9 genes[D].Tongliao: Inner Mongolia Minzu University, 2020. [38] WESLEY SV,HELLIWELL CA,SMITH NA,et al.Construct design for efficient,effective and high-throughput gene silencing in plants[J].The Plant Journal,2001,27(6):581-590. doi: 10.1046/j.1365-313X.2001.01105.x [39] 肖玲,卢长明.以油菜脂肪酸延长酶基因fae1为靶标RNAi载体的构建[J].中国油料作物学报,2004,26(4):8-13.XIAO Ling,LU Changming.Construction of RNAi expression vector targeting the gene fae1 in rapeseeds[J].Chinese Journal of Oil Crop eves,2004,26(4):8-13. [40] 陈永胜,王永佳,王莹,等.蓖麻毒蛋白A链基因RNAi转化研究[J].西北植物学报,2013,33(1):39-42.CHEN Yongsheng,WANG Yongjia,WANG Ying,et al.Construction of RNAi binary vector of ricin A chain and lts transformation[J].Acta Botanica Boreali-Occidentalia Sinica,2013,33(1):39-42. [41] 金璐.蓖麻毒蛋白基因家族干扰载体的构建与低毒蓖麻的遗传转化[D].长沙: 湖南农业大学, 2014.JIN Lu.RNAi vector construction of ricin family and the transformation of low-toxicity castor(Ricinus communis L.)[D].Changsha: Hunan Agricultural University, 2014. [42] 邢超.蓖麻FAH12、FAD2与FAE1基因干扰载体的构建与高油酸蓖麻的遗传转化[D].长沙: 湖南农业大学, 2013.XING Chao.RNAi vector construction of FAH12、FAD2 and FAEI gene and the transformation of castor(Ricinus communis L.)[D].Changsha: Hunan Agricultural University, 2013. [43] 冯紫洲.蓖麻RcNHX1基因的功能分析[D].通辽: 内蒙古民族大学, 2017.FENG Zizhou.Functional analysis of RcNHXI gene in castor (Ricinus communis L.)[D].Tongliao: Inner Mongolia Minzu University, 2017. [44] 张丽雪.蓖麻耐盐相关基因RcGST与RcDHAR的功能研究[D].通辽: 内蒙古民族大学, 2020.ZHANG Lixue.Research on the function of Ricinus communis L.salt tolerance related genes ReGST and RcDHAR[D].Tongliao: Inner Mongolia Minzu University, 2020. [45] 谢鸿锴.EPSPS基因的克隆及转化甜高粱的初步研究[D].南宁: 广西大学, 2012. [46] 李闻娟,张建平,陈芳,等.bar基因的亚麻花粉管通道法转化[J].中国农学通报,2013,29(12):96-100.LI Wenjuan,ZHANG Jianping,CHEN Fang,et al.Transformation of herbicide resistant gene (bar) into flax by pollen tube pathway[J].Chinese Agricultural Science Bulletin,2013,29(12):96-100. [47] 杨益军,张波.全球非选择性除草剂市场分析及预测(2020年)(下)[J].农药科学与管理,2020,41(5):6-14.YANG Yijun,ZHANG Bo.Analysis and forecast of global non-selective herbicide market in 2020[J].Pesticide Science and Management,2020,41(5):6-14. [48] HEAP I,DUKE S O.Overview of glyphosate-resistant weeds worldwide[J].Pest Management Science,2018,74(5): 1040 - 1049. doi: 10.1002/ps.4760 [49] 李思琪, 王怡婷, 于耸, 等.抗草铵膦基因bar遗传转化蓖麻[J].分子植物育种: 1-8.http://kns.cnki.net/kcms/detail/46.1068.S.20210419.1125.006.html.LI Siqi, WANG Yiting, YU Song, et al.Genetic transformation of castor with glufosinate-resistant gene Bar[J].Molecular Plant Breeding: 1-8.http://kns.cnki.net/kcms/detail/46.1068.S.20210419.1125.006.html -
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