马铃薯原生质体培养与再生技术研究进展
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摘要
马铃薯原生质体培养与再生技术体系是细胞融合、遗传转化和基因编辑育种的平台技术。对影响马铃薯原生质体培养和再生技术以及原生质体培养技术体系在马铃薯上的应用进行了综述,针对马铃薯原生质体再生技术存在的问题与相应对策进行了讨论。
引文
[1]Barrell P J,Meiyalaghan S,Jacobs J M E,et al.Applications of biotechnology and genomics in potato improvement[J].Plant Biotechnology Journal,2013,11(8):907-920.
[2]Hawkes J G.Biosystematics of the potato[M]//The potato crop.US:Springer,1978:15-69.
[3]Howard H M.Genetics of the potato:Solanum tuberosum[M].Genetics of the potato Solanum tuberosum,1970.
[4]孙雪梅.马铃薯原生质体培养研究进展[J].黑龙江农业科学,2011(1):134-136.
[5]孙蒙祥,杨弘远,周嫦.用聚乙二醇诱导选定的成对原生质体间的融合[J].植物学报,1994,36(7):489-493.
[6]Lorenzini M.Obtention de protoplast detubercule de tubercule de Domme de terre,CR[J].Academy Science,1973,276:1 839-1 842.
[7]Butenko R G,Kuchko A A,Vitenko V A,et al.Production and cultivation of isolated protoplasts from the mesophyll of leaves of Solanum tuberosum L.and Solanum chacoense Bitt[J].Soviet Plant Physiology,1977,24(3):541-546.
[8]Shepard J F,Totten R E.Mesophyll cell protoplasts of potato isolation,proliferation,and plant regeneration[J].Plant Physiology,1977,60(2):313-316.
[9]李凤云,蔡兴奎,盛万民,等.马铃薯叶肉原生质体融合创制抗晚疫病新种质[M]//屈冬玉,陈伊里.哈尔滨:哈尔滨地图出版社,2016:259-267.
[10]刘庆昌,吴国良.植物细胞组织培养[M].北京:中国农业大学出版社,2003:163-180.
[11]Masson J,Lecerf M,Rousselle P,et al.Plant regeneration from protoplasts of diploid potato derived from crosses of Solanum tuberosum with wild Solanum species[J].Plant Science,1987,53(2):167-176.
[12]Coleman M,Davie P,Vessey J,et al.Intraclonal genetic variation for protoplast regenerative ability within Solanum tuberosum cv.Record[J].Annals of Botany,1991,67(4):459-461.
[13]周宇波,柳俊,谢从华,等.马铃薯原生质体培养体系改良[J].华中农业大学学报,2001,20(5):469-473.
[14]戴朝嚷,孙顺姊.马铃薯实生苗子叶及下胚轴原生质体培养研究[J].植物学报,1994,36(9):671-678.
[15]王蒂,司怀军,王清.马铃薯花粉原生质体分离的研究[J].园艺学报,1999,26(5):323-326.
[16]Alessandro N,Estelle P W,Inger A,et al.Targeted gene mutation in tetraploid potato through transient TALEN expression in protoplasts[J].Journal of Biotechnology,2015,204:17-24.
[17]蔡兴奎,柳俊,谢从华.马铃薯栽培种与野生种叶肉细胞融合及体细胞杂种鉴定[J].园艺学报,2004,31(5):623-626.
[18]邸宏,卢翠华,陈伊里.马铃薯叶片原生质体的游离纯化[J].东北农业大学学报,2008,39(6):11-13.
[19]蔡兴奎.原生质体融合创造抗青枯病的马铃薯新种质及其遗传分析[D].武汉:华中农业大学,2003.
[20]陈鹏,刘卫卫,魏彩霞,等.提高二倍体马铃薯原始栽培种原生质体分离与分裂频率的研究[J].甘肃农业大学学报,2014,5(49):80-87.
[21]袁华玲.二倍体马铃薯原生质体培养及体细胞杂交的研究[D].北京:中国农业科学院,2008.
[22]刘文萍,刘建新,南相日,等.二倍体马铃薯原生质体培养与植株再生[J].黑龙江农业科学,2015(1):6-9.
[23]吴旺泽,王蒂,王清,等.马铃薯原生质体游离与培养体系的研究[J].甘肃农业大学学报,2004,39(2):146-149.
[24]李凤云,蔡兴奎,盛万民,等.二倍体马铃薯试管苗的培养及对叶肉原生质体融合的影响[J].中国马铃薯,2014,28(5):257-263.
[25]李韬,戴朝曦.提高马铃薯原生质体细胞分裂频率的研究[J].作物学报,2000,26(6):953-958.
[26]Karp A,Jones M G K,Simon G,et al.Potato protoplasts and tissue culture in crop improvement[J].Biotechnology and Genetic Engineering Reviews,1987,5(1):1-32.
[27]Jones H,Karp A,Jones M G K.Isolation,culture,and regeneration of plants from potato protoplasts[J].Plant Cell Report,1989,8(5):307-311.
[28]何亚文,李耿光,张兰英.马铃薯野生种叶肉原生质体培养及其植株再生[J].热带亚热带植物学报,1996,4(3):72-74.
[29]Carlberg I,Glimelius K,Eriksson T.Improved culture ability of potato protoplasts by use of activated charcoal[J].Plant Cell Report,1983,2(5):223-225.
[30]M?llers C,Wenzel G.Somatic hybridization of dihaploid potato protoplasts as a tool for potato breeding[J].Plant Biology,1992,105(3):133-139.
[31]袁华玲,金黎平,谢开云,等.体细胞杂交技术在马铃薯遗传育种研究中的应用[J].中国马铃薯,2005,19(6):357-361.
[32]Tek A L,Stevenson W R,Helgeson J P,et al.Transfer of tuber soft rot and early blight resistances from Solanum brevidens into cultivated potato[J].Theoretical and Applied Genetics,2004,109:249-254.
[33]Nicolia A,Proux-Wéra E,Ahman I,et al.Targeted gene mutation in tetraploid potato through transient TALEN expression in protoplasts[J].Journal of Biotechnology,2015,204:17-24.
[34]Clasen B M,Stoddard T J,Luo S,et al.Improving cold storage and processing traits in potato through targeted gene knockout[J].Plant Biotechnology Journal,2016,14(1):169-176.
[35]Andersson M,Turesson H,Nicolia A,et al.Efficient targeted multiallelic mutagenesis in tetraploid potato(Solanum tuberosum)by transient CRISPR-Cas9 expression in protoplasts[J].Plant Cell Report,2017,36:117-128.
[36]Sawai S,Ohyama K,Yasumoto S,et al.Sterol side chain reductase 2 is a key enzyme in the biosynthesis of cholesterol,the common precursor of toxic steroidal glycoalkaloids in potato[J].Plant Cell Report,2014,26:3 763-3 774.
[37]Wang S,Zhang S,Wang W,et al.Efficient targeted mutagenesis in potato by the CRISPR/Cas9 system[J].Plant Cell Report,2015,34:1 473-1 476.
[38]Butler N M,Baltes N J,Voytas D F,et al.Gemini virus mediated genome editing in potato(Solanum tuberosum L.)using sequence-specific nucleases[J].Frontiers in Plant Science,2016,7(1045):1-13.
[39]Fish N,Karp A.Improvements in regeneration from protoplasts of potato and studies on chromosome stability[J].Theoretical and Applied Genetics,1986,72(3):405-412.
[2]Hawkes J G.Biosystematics of the potato[M]//The potato crop.US:Springer,1978:15-69.
[3]Howard H M.Genetics of the potato:Solanum tuberosum[M].Genetics of the potato Solanum tuberosum,1970.
[4]孙雪梅.马铃薯原生质体培养研究进展[J].黑龙江农业科学,2011(1):134-136.
[5]孙蒙祥,杨弘远,周嫦.用聚乙二醇诱导选定的成对原生质体间的融合[J].植物学报,1994,36(7):489-493.
[6]Lorenzini M.Obtention de protoplast detubercule de tubercule de Domme de terre,CR[J].Academy Science,1973,276:1 839-1 842.
[7]Butenko R G,Kuchko A A,Vitenko V A,et al.Production and cultivation of isolated protoplasts from the mesophyll of leaves of Solanum tuberosum L.and Solanum chacoense Bitt[J].Soviet Plant Physiology,1977,24(3):541-546.
[8]Shepard J F,Totten R E.Mesophyll cell protoplasts of potato isolation,proliferation,and plant regeneration[J].Plant Physiology,1977,60(2):313-316.
[9]李凤云,蔡兴奎,盛万民,等.马铃薯叶肉原生质体融合创制抗晚疫病新种质[M]//屈冬玉,陈伊里.哈尔滨:哈尔滨地图出版社,2016:259-267.
[10]刘庆昌,吴国良.植物细胞组织培养[M].北京:中国农业大学出版社,2003:163-180.
[11]Masson J,Lecerf M,Rousselle P,et al.Plant regeneration from protoplasts of diploid potato derived from crosses of Solanum tuberosum with wild Solanum species[J].Plant Science,1987,53(2):167-176.
[12]Coleman M,Davie P,Vessey J,et al.Intraclonal genetic variation for protoplast regenerative ability within Solanum tuberosum cv.Record[J].Annals of Botany,1991,67(4):459-461.
[13]周宇波,柳俊,谢从华,等.马铃薯原生质体培养体系改良[J].华中农业大学学报,2001,20(5):469-473.
[14]戴朝嚷,孙顺姊.马铃薯实生苗子叶及下胚轴原生质体培养研究[J].植物学报,1994,36(9):671-678.
[15]王蒂,司怀军,王清.马铃薯花粉原生质体分离的研究[J].园艺学报,1999,26(5):323-326.
[16]Alessandro N,Estelle P W,Inger A,et al.Targeted gene mutation in tetraploid potato through transient TALEN expression in protoplasts[J].Journal of Biotechnology,2015,204:17-24.
[17]蔡兴奎,柳俊,谢从华.马铃薯栽培种与野生种叶肉细胞融合及体细胞杂种鉴定[J].园艺学报,2004,31(5):623-626.
[18]邸宏,卢翠华,陈伊里.马铃薯叶片原生质体的游离纯化[J].东北农业大学学报,2008,39(6):11-13.
[19]蔡兴奎.原生质体融合创造抗青枯病的马铃薯新种质及其遗传分析[D].武汉:华中农业大学,2003.
[20]陈鹏,刘卫卫,魏彩霞,等.提高二倍体马铃薯原始栽培种原生质体分离与分裂频率的研究[J].甘肃农业大学学报,2014,5(49):80-87.
[21]袁华玲.二倍体马铃薯原生质体培养及体细胞杂交的研究[D].北京:中国农业科学院,2008.
[22]刘文萍,刘建新,南相日,等.二倍体马铃薯原生质体培养与植株再生[J].黑龙江农业科学,2015(1):6-9.
[23]吴旺泽,王蒂,王清,等.马铃薯原生质体游离与培养体系的研究[J].甘肃农业大学学报,2004,39(2):146-149.
[24]李凤云,蔡兴奎,盛万民,等.二倍体马铃薯试管苗的培养及对叶肉原生质体融合的影响[J].中国马铃薯,2014,28(5):257-263.
[25]李韬,戴朝曦.提高马铃薯原生质体细胞分裂频率的研究[J].作物学报,2000,26(6):953-958.
[26]Karp A,Jones M G K,Simon G,et al.Potato protoplasts and tissue culture in crop improvement[J].Biotechnology and Genetic Engineering Reviews,1987,5(1):1-32.
[27]Jones H,Karp A,Jones M G K.Isolation,culture,and regeneration of plants from potato protoplasts[J].Plant Cell Report,1989,8(5):307-311.
[28]何亚文,李耿光,张兰英.马铃薯野生种叶肉原生质体培养及其植株再生[J].热带亚热带植物学报,1996,4(3):72-74.
[29]Carlberg I,Glimelius K,Eriksson T.Improved culture ability of potato protoplasts by use of activated charcoal[J].Plant Cell Report,1983,2(5):223-225.
[30]M?llers C,Wenzel G.Somatic hybridization of dihaploid potato protoplasts as a tool for potato breeding[J].Plant Biology,1992,105(3):133-139.
[31]袁华玲,金黎平,谢开云,等.体细胞杂交技术在马铃薯遗传育种研究中的应用[J].中国马铃薯,2005,19(6):357-361.
[32]Tek A L,Stevenson W R,Helgeson J P,et al.Transfer of tuber soft rot and early blight resistances from Solanum brevidens into cultivated potato[J].Theoretical and Applied Genetics,2004,109:249-254.
[33]Nicolia A,Proux-Wéra E,Ahman I,et al.Targeted gene mutation in tetraploid potato through transient TALEN expression in protoplasts[J].Journal of Biotechnology,2015,204:17-24.
[34]Clasen B M,Stoddard T J,Luo S,et al.Improving cold storage and processing traits in potato through targeted gene knockout[J].Plant Biotechnology Journal,2016,14(1):169-176.
[35]Andersson M,Turesson H,Nicolia A,et al.Efficient targeted multiallelic mutagenesis in tetraploid potato(Solanum tuberosum)by transient CRISPR-Cas9 expression in protoplasts[J].Plant Cell Report,2017,36:117-128.
[36]Sawai S,Ohyama K,Yasumoto S,et al.Sterol side chain reductase 2 is a key enzyme in the biosynthesis of cholesterol,the common precursor of toxic steroidal glycoalkaloids in potato[J].Plant Cell Report,2014,26:3 763-3 774.
[37]Wang S,Zhang S,Wang W,et al.Efficient targeted mutagenesis in potato by the CRISPR/Cas9 system[J].Plant Cell Report,2015,34:1 473-1 476.
[38]Butler N M,Baltes N J,Voytas D F,et al.Gemini virus mediated genome editing in potato(Solanum tuberosum L.)using sequence-specific nucleases[J].Frontiers in Plant Science,2016,7(1045):1-13.
[39]Fish N,Karp A.Improvements in regeneration from protoplasts of potato and studies on chromosome stability[J].Theoretical and Applied Genetics,1986,72(3):405-412.