抗除草剂水稻种质资源研究进展
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摘要
概述了除草剂的常见类型及其作用机制,综述了抗除草剂水稻育种的研究进展,展望了CRISPR/Cas9基因编辑技术在抗除草剂水稻育种研究中的应用与发展前景。
This article summarized the common types of herbicides and their mechanisms of action, reviewed the research progress of rice breeding on herbicide resistance and provided a glimpse into the future of the application and development of the CRISPR/Cas9 gene editing techniques in the herbicide-resistant rice breeding.
This article summarized the common types of herbicides and their mechanisms of action, reviewed the research progress of rice breeding on herbicide resistance and provided a glimpse into the future of the application and development of the CRISPR/Cas9 gene editing techniques in the herbicide-resistant rice breeding.
引文
[1]王哲,戎俊,卢宝荣.杂草稻的发生、危害与我国水稻生产面临的挑战[J].杂草学报,2015(1):1-9.
[2]王忠武.农田杂草抗药性研究进展[J].园艺与种苗,2006,26(2):130-132.
[3]苏少泉.除草剂作用靶标与新品种创制[M].北京:化学工业出版社,2001.
[4]刘际初,苏芳惠.灭草丹国内市场展望[J].精细化工中间体,1987(1):55-57,65.
[5]徐春红,张维东.除草剂2,4-D丁酯药害产生的原因及预防措施[J].上海蔬菜,2010(2):73-74.
[6]苏少泉.抗除草剂水稻品种的创制与发展[J].农药研究与应用,2010(5):6-8.
[7]童汉华,曹一平,章善庆.耐草甘膦作物的选育研究概况[J].中国稻米,2006,12(6):12-14.
[8]LI J,MENG X,ZONG Y,et al.Gene replacements and insertions in rice by intron targeting using CRISPR-Cas9[J].Nature plants,2016,2(10):16 139.
[9]戴燚,赵德刚.抗草甘膦水稻突变体osgr-1 EPSPS基因克隆及生物信息学分析[J].种子,2018(3):5-10,15.
[10]王云鹏,马景勇,马瑞,等.土壤宏基因组中抗草甘膦新基因的克隆与转化水稻的研究[J].作物学报,2014,40(7):1 190-1 196.
[11]梅锋.转基因抗虫耐草甘膦水稻在浙江省的生产性试验[D].杭州:浙江大学,2015.
[12]ZHAO Q C,LIU M H,ZHANG X W,et al.Generation of insectresistant and glyphosate-tolerant rice by introduction of a T-DNAcontaining two Bt insecticidal genes and an EPSPS gene[J].Journal of Zhejiang University-Science B(Biomedicine&biotechnology),2015(10):824-831.
[13]苏少泉.生物技术与抗除草剂作物[M].北京:化学工业出版社,2002.
[14]WANG S,SHI L,SUN Z,et al.Agrobacterium-mediated transformation of rice(Oryza sativa L.)with atzA gene[J].Agricultural Sciences in China,2004,37(8):1 093-1 098.
[15]吴发强,王世全,李双成,等.抗除草剂转基因水稻的研究进展及其安全性问题[J].分子植物育种,2006,4(6):846-852.
[16]翁绿水,蒋利平,肖国樱.抗虫抗除草剂转基因水稻恢复系B2A68的培育[J].杂交水稻,2013,28(1):63-67.
[17]蒋显斌,陈玉冲,邓力华,等.转基因抗除草剂水稻Bar68-1的遗传稳定性分析[J].西南农业学报,2015,28(3):925-929.
[18]ENDO M,OSAKABE K,ONO K,et al.Molecular breeding of a novel herbicide-tolerant rice by gene targeting[J].The plant journal,2007,52(1):157-166.
[19]唐晓艳,柳威,王承旭,等.水稻抗除草剂蛋白及其在植物育种中的应用:CN 102586215A[P].
[20]张保龙,陈天子,凌溪铁,等.一种als突变型基因及其在抗除草剂方面的应用:CN 105779479 B[P].
[21]夏兰琴,孙永伟,赵云德,等.利用CRISPR/Cas9系统定点修饰ALS基因获得抗除草剂水稻的系统及其应用:CN106811479 A[P].
[22]周宇涵,苗蔚荣,程侣柏,等.原卟啉原氧化酶抑制剂类除草剂研究进展[J].农药学学报,2002,4(1):1-8.
[23]苏少泉.靶标原卟啉原氧化酶除草剂的发展[J].农药,2005,44(8):342-346.
[24]LEE Y,JUNG S,BACK K.Expression of human protoporphyrinogen oxidase in transgenic rice induces both a photodynamic response and oxyfluorfenresistance[J].Pesticide biochemistry&physiology,2004,80(2):65-74.
[25]KAWAHIGASHI H,HIROSE S,INUI H,et al.Enhanced herbicide cross-tolerance in transgenic rice plants co-expressing human CYP1A1,CYP2B6,and CYP2C19[J].Plant science,2005,168(3):773-781.
[26]INUI H,SHIOTA N,IDO Y,et al.Herbicide metabolism and tolerance in the transgenic rice plants expressing human CYP2C9and CYP2C19[J].Pesticide biochemistry and physiology,2001,71(3):156-169.
[27]沈志成,林朝阳,等.抗除草剂基因及其应用:WO 2012068966A1[P].2012.
[28]冯家中.除草剂的作用机理及安全使用技术[J].吉林农业,2014(15):85.
[2]王忠武.农田杂草抗药性研究进展[J].园艺与种苗,2006,26(2):130-132.
[3]苏少泉.除草剂作用靶标与新品种创制[M].北京:化学工业出版社,2001.
[4]刘际初,苏芳惠.灭草丹国内市场展望[J].精细化工中间体,1987(1):55-57,65.
[5]徐春红,张维东.除草剂2,4-D丁酯药害产生的原因及预防措施[J].上海蔬菜,2010(2):73-74.
[6]苏少泉.抗除草剂水稻品种的创制与发展[J].农药研究与应用,2010(5):6-8.
[7]童汉华,曹一平,章善庆.耐草甘膦作物的选育研究概况[J].中国稻米,2006,12(6):12-14.
[8]LI J,MENG X,ZONG Y,et al.Gene replacements and insertions in rice by intron targeting using CRISPR-Cas9[J].Nature plants,2016,2(10):16 139.
[9]戴燚,赵德刚.抗草甘膦水稻突变体osgr-1 EPSPS基因克隆及生物信息学分析[J].种子,2018(3):5-10,15.
[10]王云鹏,马景勇,马瑞,等.土壤宏基因组中抗草甘膦新基因的克隆与转化水稻的研究[J].作物学报,2014,40(7):1 190-1 196.
[11]梅锋.转基因抗虫耐草甘膦水稻在浙江省的生产性试验[D].杭州:浙江大学,2015.
[12]ZHAO Q C,LIU M H,ZHANG X W,et al.Generation of insectresistant and glyphosate-tolerant rice by introduction of a T-DNAcontaining two Bt insecticidal genes and an EPSPS gene[J].Journal of Zhejiang University-Science B(Biomedicine&biotechnology),2015(10):824-831.
[13]苏少泉.生物技术与抗除草剂作物[M].北京:化学工业出版社,2002.
[14]WANG S,SHI L,SUN Z,et al.Agrobacterium-mediated transformation of rice(Oryza sativa L.)with atzA gene[J].Agricultural Sciences in China,2004,37(8):1 093-1 098.
[15]吴发强,王世全,李双成,等.抗除草剂转基因水稻的研究进展及其安全性问题[J].分子植物育种,2006,4(6):846-852.
[16]翁绿水,蒋利平,肖国樱.抗虫抗除草剂转基因水稻恢复系B2A68的培育[J].杂交水稻,2013,28(1):63-67.
[17]蒋显斌,陈玉冲,邓力华,等.转基因抗除草剂水稻Bar68-1的遗传稳定性分析[J].西南农业学报,2015,28(3):925-929.
[18]ENDO M,OSAKABE K,ONO K,et al.Molecular breeding of a novel herbicide-tolerant rice by gene targeting[J].The plant journal,2007,52(1):157-166.
[19]唐晓艳,柳威,王承旭,等.水稻抗除草剂蛋白及其在植物育种中的应用:CN 102586215A[P].
[20]张保龙,陈天子,凌溪铁,等.一种als突变型基因及其在抗除草剂方面的应用:CN 105779479 B[P].
[21]夏兰琴,孙永伟,赵云德,等.利用CRISPR/Cas9系统定点修饰ALS基因获得抗除草剂水稻的系统及其应用:CN106811479 A[P].
[22]周宇涵,苗蔚荣,程侣柏,等.原卟啉原氧化酶抑制剂类除草剂研究进展[J].农药学学报,2002,4(1):1-8.
[23]苏少泉.靶标原卟啉原氧化酶除草剂的发展[J].农药,2005,44(8):342-346.
[24]LEE Y,JUNG S,BACK K.Expression of human protoporphyrinogen oxidase in transgenic rice induces both a photodynamic response and oxyfluorfenresistance[J].Pesticide biochemistry&physiology,2004,80(2):65-74.
[25]KAWAHIGASHI H,HIROSE S,INUI H,et al.Enhanced herbicide cross-tolerance in transgenic rice plants co-expressing human CYP1A1,CYP2B6,and CYP2C19[J].Plant science,2005,168(3):773-781.
[26]INUI H,SHIOTA N,IDO Y,et al.Herbicide metabolism and tolerance in the transgenic rice plants expressing human CYP2C9and CYP2C19[J].Pesticide biochemistry and physiology,2001,71(3):156-169.
[27]沈志成,林朝阳,等.抗除草剂基因及其应用:WO 2012068966A1[P].2012.
[28]冯家中.除草剂的作用机理及安全使用技术[J].吉林农业,2014(15):85.