高压电晕电场生物效应研究评述
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摘要
高压电晕电场生物(HVCEF)技术是近年来发现的具有装置简单、生物效应明显、环境友好等特点的新型物理诱变技术。本文综述了高压电晕电场生物技术装置的结构和组成,分析了高压电晕电场诱变大肠杆菌和对其他物种的生物效应,以及高压电晕电场的物理特性和生物效应机制,为高压电晕电场技术的进一步应用研究提供了借鉴。
High voltage corona electric field(HVCEF) is a new mutagenic technique. This technique causes obvious biological effect with simple device and environmental friendly. In this paper, the structure and composition of the HVCEF biotechnology device are reviewed. The biochemical effects of E. coli and other species on HVCEF and the physical and biological effects of HVCEF are analyzed. It provides reference for further application of HVCEF technology.
High voltage corona electric field(HVCEF) is a new mutagenic technique. This technique causes obvious biological effect with simple device and environmental friendly. In this paper, the structure and composition of the HVCEF biotechnology device are reviewed. The biochemical effects of E. coli and other species on HVCEF and the physical and biological effects of HVCEF are analyzed. It provides reference for further application of HVCEF technology.
引文
[1] 杨晓桐, 那日, 郑宇, 李韬, 唐雅婷. 高压电晕电场对出芽短梗霉菌诱变的研究[J]. 安徽农业科学,2015, 43(17):3-4,8
[2] Tao X Y, Chen J, Li L N, Zhao L Y, Zhang M, Sun A D. Influence of pulsed electric field on Escherichia coli and Saccharomyces cerevisiae[J]. International Journal of Food Properties, 2015,18(7): 1416-1427
[3] Takanori T, Tomoki Y, Kazuki S, Bing S, Ohshima T. Inactivation of Escherichia coli phages by PEF treatment and analysis of inactivation mechanism[J]. Journal of Electrostatics, 2015, 73(1): 151-155
[4] Sharma P, Oey Ⅰ, Bremer P, Everett D W. Reduction of bacterial counts and inactivation of enzymes in bovine whole milk using pulsed electric fields[J]. International Dairy Journal, 2014, 39(1): 146-156
[5] Chao L M, Na R, Xue D, Xu Y, Liu T. Transformation of soybean Gy3 gene into Artemisaarenaria mediated by corona discharge[J]. Journal of Physics: Conference Series, 2013, 418: 12138
[6] Mi Y, Yao C G, Li C X, Sun C X, Tang J Y, Yang F L, Wen Y Q. Caspase-3 activation by exponential decay nanosecond pulsed electric fields on tumor-bearing BALB/c nude mice in vivo[J]. IEEE Transactions on Plasma Science, 2010, 38(8): 1963-1971
[7] Chueca B, Pagán R, García-Gonzalo D. Transcriptomic analysis of Escherichia coli MG1655 cells exposed to pulsed electric fields[J]. Innovative Food Science and Emerging Technologies, 2015, 29: 78-86
[8] Sundararajan R. nanosecond electroporation: another look[J]. Molecular Biotechnology, 2009, 41(1):69-82
[9] Joannes C, Sipaut C S, Dayou J, Yasir S M, Mansa R F. Review paper on cell membrane electroporation of microalgae using electric field treatment method for microalgae lipid extraction[J]. IOP Conference Series: Materials Science and Engineering, 2015, 78(1):12034
[10] Tian M L, Fang T, Du M Y, Zhang F S. Effects of pulsed electric field (PEF) treatment on enhancing activity and conformation of a-Amylase[J]. Protein Journal, 2016, 35(2):154-162
[11] Zhao W, Yang R J, Gu Y J, Li C Y. Effects of pulsed electric fields on cytomembrane lipids and intracellular nucleic acids of Saccharomyces cerevisiae[J]. Food Control, 2014, 39(1):204-213
[12] Harutyunyan H A, Sahakyan G Ⅴ. Biological effects of the electrostatic field: red blood cell-related alterations of oxidative processes in blood[J]. International Journal of Biometeorology, 2016, 60(1): 99-111
[13] 许潇, 那日, 杨军, 刘俊杰. 高压电晕电场放电特性的研究[J]. 内蒙古大学学报, 2009, 40(5):600-604
[14] Ding C J, Lu J, Song Z Q. Electrohydrodynamic drying of carrot slices[J]. PLoS One, 2015, 10(4): e0124077
[15] Bai Y X, Qu M, Luan Z Q, Li X, Yang Y. Electrohydrodynamic drying of sea cucumber (Stichopus japonicus) [J]. LWT-Food Science and Technology, 2013, 54(2): 570-576
[16] Feng Z B, Long Z W, Chen Q Y. Voltage-current characteristics of needle-plate system with different media on the collection plate[J]. Journal of Electrostatics, 2014, 72(2): 129-135
[17] 丁昌江, 卢静莉. 牛肉在高压静电场作用下的干燥特性[J]. 高电压技术, 2008, 34(7):1405-1409
[18] 宋智青, 陈浩, 王景峰, 栾欣昱, 丁昌江, 朱景程. 一种细胞分子诱变修饰装置:中国, 2017218248208[P]. 2018-07-04
[19] 谷卓, 那日, 石薇, 徐淑银. 高压电晕电场对黄霉素产生菌诱变效应[J]. 核农学报, 2012,26(5): 740-745
[20] 王云龙, 白爱枝, 宋智青, 李瑞云, 杨晓炜, 于洪剑. 不同高压电场对大肠杆菌诱变效应的比较[J]. 核农学报, 2018,32(1):14-21
[21] 宋智青, 罗辽复, 梁运章. 高压芒刺静电场对大肠杆菌K12诱变效应初步研究[J]. 北京理工大学学报, 2009, 29(S2):93-95
[22] Qi H, Na R, Xin J, Xie Y J, Guo J F. Effect of corona electric field on the production of gamma-poly glutamic acid based on bacillus natto[J]. Journal of Physics:Conference Series, 2013, 418: 12139
[23] 白爱枝, 李瑞云, 王新雨, 杨晓炜, 于洪剑. 高压静电场对大肠杆菌的生物学效应[J]. 高电压技术, 2016, 42(8):2534-2539
[24] Tang M L, Wang S C, Wang T, Zhao S G, Wu Y J, Wu L J, Yu Z L. Mutational spectrum of the lacI gene in Escherichia coli K12 induced by low-energy ion beam[J]. Mutation Research, 2006, 602(1): 163-169
[25] 吴宗汉. 基础静电学[M]. 北京:北京大学出版社,2010
[26] 宿鹏浩, 朱益民, 陈海丰. 多针对板负电晕放电电离区形貌确定[J]. 光谱学与光谱分析, 2007, 27(11):2171-2174
[27] Wang X Q, Zhou R W, Groot G, Bazaka K, Murphy A B, Ostrikov K. Spectral characteristics of cotton seeds treated by a dielectric barrier discharge plasma[J]. Scientific Reports,2017,7(1): 5601
[28] Schmiedchen K, Petri A K, Driessen S, Bailey W H. Systematic review of biological effects of exposure to static electric fields. Part Ⅱ: invertebrates and plants[J]. Environmental Research, 2018,160:60-76
[29] Mikhaylin S, Boussetta N, Vorobiev E, Bazinet L. High voltage electrical treatments to improve the protein susceptibility to enzymatic hydrolysis[J]. ACS Sustainable Chemistry and Engineering, 2017, 5(12):11706-11714
[30] 袁丽丽,郭九峰,向一辰, 刘维清, 那日. 高压电晕电场诱变北虫草的研究[J].食用菌,2016,38(2):29-33
[31] 那日,杨生,邢万金, 杨体强. 电晕电场对细枝岩黄芪种子愈伤组织诱导与分化的影响[J]. 核农学报, 2010,24(4):748-751
[32] Zimmermann U. Electrical breakdown, electropermeabilization and electrofusion[J]. Reviews of Physiology Biochemistry and Pharmacology,1986,105(6): 176-256
[33] Zhang Y, Liu L J, Ouyang J T. On the negative corona and ionic wind over water electrode surface[J]. Journal of Electrostatics, 2014, 72: 76-81
[34] Feng H Y, Yu Z L, Chu P K. Ion implantation of organisms[J]. Materials Science & Engineering R, 2006, 54(3): 49-120
[35] Song Z Q, Liang Y Z, Zhang X S, Luo L F. Biological effects of low energy ion beam implantation on plant[J]. Current Topics on Plant Biology, 2006, 7:75-84
[36] Yu Z L. An Introduction to Ion Beam Biotechnology[M].New York: Springer Press, 2006
[37] Rybenkov Ⅴ Ⅴ, Vologodskii A Ⅴ, Cozzarelli N R. The effect of ionic conditions on dna helical repeat, effective diameter and free energy of supercoiling [J]. Nucleic Acids Research, 1997, 25(7): 1412
[38] Zhang X, Zhang X F, Li H P, Wang L Y, Zhang C, Xing X H, Bao C Y. Atmospheric and room temperature plasma (ARTP) as a new powerful mutagenesis tool[J]. Applied Microbiology and Biotechnology, 2014, 98(12): 5387-5396
[39] Ren F, Chen L, Tong Q Y. Highly improved acarbose production of Actinomyces through the combination of ARTP and penicillin susceptible mutant screening[J]. Word Journal of Microbiology and Biotechnology, 2017, 33(1):16
[40] Cooke M S, Evans M D, DizdarogluI M, Lunec J. Oxidative DNA damage: mechanisms, mutation, and disease[J]. Faseb Journal, 2003, 17(10): 1195-1214
[41] Gaunt L F, Beggs C B, Georghiou G E. Bactericidal action of the reactive species produced by gas-discharge nonthermal plasma at atmospheric pressure: a review[J]. IEEE Transactions on Plasma Science, 2006,34(4): 1257-1269
[42] May K, Necdet A. The effect of atmospheric pressure plasma corona discharge on pH, lipid content and DNA of bacterial cells[J]. Plasma Science and Technology, 2011, 13: 99-105
[43] 张雪, 张晓菲, 王立言, 张翀, 陈韵亿, 常海波, 李和平, 邢新会. 常压室温等离子体生物诱变育种及其应用研究进展[J]. 化工学报, 2014, 65(7):2676-2684
[44] 李和平, 于达仁, 孙文廷, 刘定新, 李杰, 韩先伟, 李增耀, 孙冰, 吴云. 大气压放电等离子体研究进展综述[J]. 高电压技术, 2016, 42(12):3697-3727
[45] 孔刚玉, 刘定新. 气体等离子体与水溶液的相互作用研究—意义、挑战与新进展[J]. 高电压技术, 2014, 40(10):2956-2965
[46] 黄旭初, 侯娟, 刘效勇. 模拟计算低能重离子注入植物种子的深度[J]. 核农学报, 2009, 23(6):976-980
[47] Yang G, Wu L J, Chen L Y, Pei B, Wang Y G, Zhan F R, Wu Y J, Yu Z L. Targeted irradiation of shoot apical meristem of arabidopsis embryos induces long-distance bystander/abscopal effects[J]. Radiation Research, 2007, 167:298- 305
[48] Bouda?ffa B, Cloutier P, Hunting D, Huels M A, Sanchel L. Resonant formation of DNA strand breaks by low-energy (3 to 20 eV) electrons [J]. Science, 2000, 287(5458):1658-1660
[49] Michael B D, O’Neill P. Molecular biology-A sting in the tail of electron track[J]. Science, 2000, 287(5458):1603-1604
[50] Boudaiffa B, Cloutier P, Hunting D, Huels M A, Sanche L. Cross Sections for low-energy (10-50 eV) electron damage to DNA [J]. Radiation Research, 2002,157(3): 227-234
[51] Song Z Q, Luo L F. Escherichia coli mutants induced by multi-ion irradiation[J]. Journal of Radiation Research, 2012, 53(6):854-859
[52] 刘朋虎, 江枝和, 雷锦桂, 王义祥, 翁伯琦.60Co与紫外复合诱变选育姬松茸新品种—福姬77[J]. 核农学报, 2014, 28(3):365-370
[53] 石磊, 白爱枝, 鲍秀珍, 梁运章. 高压静电场和氮离子复合处理对链霉菌的影响[J]. 核农学报, 2014, 28(4):702-707
[54] 魏俊, 钱树楼, 王城, 夏维东. 填充床介质阻挡放电臭氧发生器的实验研究[J]. 高电压技术, 2017, 43(8):2696-2701
[55] 闫克平, 李树然, 冯卫强, 郑钦臻, 杜艳艳, 沈欣军, 戴绍龙, 寇艳芹, 徐羽贞, 王仕龙, 韩平, 朱安娜, 冯文强, 黄逸凡, 刘振. 高电压环境工程应用研究关键技术问题分析及展望[J]. 高电压技术, 2015, 41(8):2528-2544
[2] Tao X Y, Chen J, Li L N, Zhao L Y, Zhang M, Sun A D. Influence of pulsed electric field on Escherichia coli and Saccharomyces cerevisiae[J]. International Journal of Food Properties, 2015,18(7): 1416-1427
[3] Takanori T, Tomoki Y, Kazuki S, Bing S, Ohshima T. Inactivation of Escherichia coli phages by PEF treatment and analysis of inactivation mechanism[J]. Journal of Electrostatics, 2015, 73(1): 151-155
[4] Sharma P, Oey Ⅰ, Bremer P, Everett D W. Reduction of bacterial counts and inactivation of enzymes in bovine whole milk using pulsed electric fields[J]. International Dairy Journal, 2014, 39(1): 146-156
[5] Chao L M, Na R, Xue D, Xu Y, Liu T. Transformation of soybean Gy3 gene into Artemisaarenaria mediated by corona discharge[J]. Journal of Physics: Conference Series, 2013, 418: 12138
[6] Mi Y, Yao C G, Li C X, Sun C X, Tang J Y, Yang F L, Wen Y Q. Caspase-3 activation by exponential decay nanosecond pulsed electric fields on tumor-bearing BALB/c nude mice in vivo[J]. IEEE Transactions on Plasma Science, 2010, 38(8): 1963-1971
[7] Chueca B, Pagán R, García-Gonzalo D. Transcriptomic analysis of Escherichia coli MG1655 cells exposed to pulsed electric fields[J]. Innovative Food Science and Emerging Technologies, 2015, 29: 78-86
[8] Sundararajan R. nanosecond electroporation: another look[J]. Molecular Biotechnology, 2009, 41(1):69-82
[9] Joannes C, Sipaut C S, Dayou J, Yasir S M, Mansa R F. Review paper on cell membrane electroporation of microalgae using electric field treatment method for microalgae lipid extraction[J]. IOP Conference Series: Materials Science and Engineering, 2015, 78(1):12034
[10] Tian M L, Fang T, Du M Y, Zhang F S. Effects of pulsed electric field (PEF) treatment on enhancing activity and conformation of a-Amylase[J]. Protein Journal, 2016, 35(2):154-162
[11] Zhao W, Yang R J, Gu Y J, Li C Y. Effects of pulsed electric fields on cytomembrane lipids and intracellular nucleic acids of Saccharomyces cerevisiae[J]. Food Control, 2014, 39(1):204-213
[12] Harutyunyan H A, Sahakyan G Ⅴ. Biological effects of the electrostatic field: red blood cell-related alterations of oxidative processes in blood[J]. International Journal of Biometeorology, 2016, 60(1): 99-111
[13] 许潇, 那日, 杨军, 刘俊杰. 高压电晕电场放电特性的研究[J]. 内蒙古大学学报, 2009, 40(5):600-604
[14] Ding C J, Lu J, Song Z Q. Electrohydrodynamic drying of carrot slices[J]. PLoS One, 2015, 10(4): e0124077
[15] Bai Y X, Qu M, Luan Z Q, Li X, Yang Y. Electrohydrodynamic drying of sea cucumber (Stichopus japonicus) [J]. LWT-Food Science and Technology, 2013, 54(2): 570-576
[16] Feng Z B, Long Z W, Chen Q Y. Voltage-current characteristics of needle-plate system with different media on the collection plate[J]. Journal of Electrostatics, 2014, 72(2): 129-135
[17] 丁昌江, 卢静莉. 牛肉在高压静电场作用下的干燥特性[J]. 高电压技术, 2008, 34(7):1405-1409
[18] 宋智青, 陈浩, 王景峰, 栾欣昱, 丁昌江, 朱景程. 一种细胞分子诱变修饰装置:中国, 2017218248208[P]. 2018-07-04
[19] 谷卓, 那日, 石薇, 徐淑银. 高压电晕电场对黄霉素产生菌诱变效应[J]. 核农学报, 2012,26(5): 740-745
[20] 王云龙, 白爱枝, 宋智青, 李瑞云, 杨晓炜, 于洪剑. 不同高压电场对大肠杆菌诱变效应的比较[J]. 核农学报, 2018,32(1):14-21
[21] 宋智青, 罗辽复, 梁运章. 高压芒刺静电场对大肠杆菌K12诱变效应初步研究[J]. 北京理工大学学报, 2009, 29(S2):93-95
[22] Qi H, Na R, Xin J, Xie Y J, Guo J F. Effect of corona electric field on the production of gamma-poly glutamic acid based on bacillus natto[J]. Journal of Physics:Conference Series, 2013, 418: 12139
[23] 白爱枝, 李瑞云, 王新雨, 杨晓炜, 于洪剑. 高压静电场对大肠杆菌的生物学效应[J]. 高电压技术, 2016, 42(8):2534-2539
[24] Tang M L, Wang S C, Wang T, Zhao S G, Wu Y J, Wu L J, Yu Z L. Mutational spectrum of the lacI gene in Escherichia coli K12 induced by low-energy ion beam[J]. Mutation Research, 2006, 602(1): 163-169
[25] 吴宗汉. 基础静电学[M]. 北京:北京大学出版社,2010
[26] 宿鹏浩, 朱益民, 陈海丰. 多针对板负电晕放电电离区形貌确定[J]. 光谱学与光谱分析, 2007, 27(11):2171-2174
[27] Wang X Q, Zhou R W, Groot G, Bazaka K, Murphy A B, Ostrikov K. Spectral characteristics of cotton seeds treated by a dielectric barrier discharge plasma[J]. Scientific Reports,2017,7(1): 5601
[28] Schmiedchen K, Petri A K, Driessen S, Bailey W H. Systematic review of biological effects of exposure to static electric fields. Part Ⅱ: invertebrates and plants[J]. Environmental Research, 2018,160:60-76
[29] Mikhaylin S, Boussetta N, Vorobiev E, Bazinet L. High voltage electrical treatments to improve the protein susceptibility to enzymatic hydrolysis[J]. ACS Sustainable Chemistry and Engineering, 2017, 5(12):11706-11714
[30] 袁丽丽,郭九峰,向一辰, 刘维清, 那日. 高压电晕电场诱变北虫草的研究[J].食用菌,2016,38(2):29-33
[31] 那日,杨生,邢万金, 杨体强. 电晕电场对细枝岩黄芪种子愈伤组织诱导与分化的影响[J]. 核农学报, 2010,24(4):748-751
[32] Zimmermann U. Electrical breakdown, electropermeabilization and electrofusion[J]. Reviews of Physiology Biochemistry and Pharmacology,1986,105(6): 176-256
[33] Zhang Y, Liu L J, Ouyang J T. On the negative corona and ionic wind over water electrode surface[J]. Journal of Electrostatics, 2014, 72: 76-81
[34] Feng H Y, Yu Z L, Chu P K. Ion implantation of organisms[J]. Materials Science & Engineering R, 2006, 54(3): 49-120
[35] Song Z Q, Liang Y Z, Zhang X S, Luo L F. Biological effects of low energy ion beam implantation on plant[J]. Current Topics on Plant Biology, 2006, 7:75-84
[36] Yu Z L. An Introduction to Ion Beam Biotechnology[M].New York: Springer Press, 2006
[37] Rybenkov Ⅴ Ⅴ, Vologodskii A Ⅴ, Cozzarelli N R. The effect of ionic conditions on dna helical repeat, effective diameter and free energy of supercoiling [J]. Nucleic Acids Research, 1997, 25(7): 1412
[38] Zhang X, Zhang X F, Li H P, Wang L Y, Zhang C, Xing X H, Bao C Y. Atmospheric and room temperature plasma (ARTP) as a new powerful mutagenesis tool[J]. Applied Microbiology and Biotechnology, 2014, 98(12): 5387-5396
[39] Ren F, Chen L, Tong Q Y. Highly improved acarbose production of Actinomyces through the combination of ARTP and penicillin susceptible mutant screening[J]. Word Journal of Microbiology and Biotechnology, 2017, 33(1):16
[40] Cooke M S, Evans M D, DizdarogluI M, Lunec J. Oxidative DNA damage: mechanisms, mutation, and disease[J]. Faseb Journal, 2003, 17(10): 1195-1214
[41] Gaunt L F, Beggs C B, Georghiou G E. Bactericidal action of the reactive species produced by gas-discharge nonthermal plasma at atmospheric pressure: a review[J]. IEEE Transactions on Plasma Science, 2006,34(4): 1257-1269
[42] May K, Necdet A. The effect of atmospheric pressure plasma corona discharge on pH, lipid content and DNA of bacterial cells[J]. Plasma Science and Technology, 2011, 13: 99-105
[43] 张雪, 张晓菲, 王立言, 张翀, 陈韵亿, 常海波, 李和平, 邢新会. 常压室温等离子体生物诱变育种及其应用研究进展[J]. 化工学报, 2014, 65(7):2676-2684
[44] 李和平, 于达仁, 孙文廷, 刘定新, 李杰, 韩先伟, 李增耀, 孙冰, 吴云. 大气压放电等离子体研究进展综述[J]. 高电压技术, 2016, 42(12):3697-3727
[45] 孔刚玉, 刘定新. 气体等离子体与水溶液的相互作用研究—意义、挑战与新进展[J]. 高电压技术, 2014, 40(10):2956-2965
[46] 黄旭初, 侯娟, 刘效勇. 模拟计算低能重离子注入植物种子的深度[J]. 核农学报, 2009, 23(6):976-980
[47] Yang G, Wu L J, Chen L Y, Pei B, Wang Y G, Zhan F R, Wu Y J, Yu Z L. Targeted irradiation of shoot apical meristem of arabidopsis embryos induces long-distance bystander/abscopal effects[J]. Radiation Research, 2007, 167:298- 305
[48] Bouda?ffa B, Cloutier P, Hunting D, Huels M A, Sanchel L. Resonant formation of DNA strand breaks by low-energy (3 to 20 eV) electrons [J]. Science, 2000, 287(5458):1658-1660
[49] Michael B D, O’Neill P. Molecular biology-A sting in the tail of electron track[J]. Science, 2000, 287(5458):1603-1604
[50] Boudaiffa B, Cloutier P, Hunting D, Huels M A, Sanche L. Cross Sections for low-energy (10-50 eV) electron damage to DNA [J]. Radiation Research, 2002,157(3): 227-234
[51] Song Z Q, Luo L F. Escherichia coli mutants induced by multi-ion irradiation[J]. Journal of Radiation Research, 2012, 53(6):854-859
[52] 刘朋虎, 江枝和, 雷锦桂, 王义祥, 翁伯琦.60Co与紫外复合诱变选育姬松茸新品种—福姬77[J]. 核农学报, 2014, 28(3):365-370
[53] 石磊, 白爱枝, 鲍秀珍, 梁运章. 高压静电场和氮离子复合处理对链霉菌的影响[J]. 核农学报, 2014, 28(4):702-707
[54] 魏俊, 钱树楼, 王城, 夏维东. 填充床介质阻挡放电臭氧发生器的实验研究[J]. 高电压技术, 2017, 43(8):2696-2701
[55] 闫克平, 李树然, 冯卫强, 郑钦臻, 杜艳艳, 沈欣军, 戴绍龙, 寇艳芹, 徐羽贞, 王仕龙, 韩平, 朱安娜, 冯文强, 黄逸凡, 刘振. 高电压环境工程应用研究关键技术问题分析及展望[J]. 高电压技术, 2015, 41(8):2528-2544
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