尖叶石竹种子的EMS和60Co-&#x003b3;诱变

龚束芳; 刘恩慧; 姜童童; 周爱民; 王金刚

doi:10.11829/j.issn.1001-0629.2017-0053

尖叶石竹种子的EMS和60Co-γ诱变

东北农业大学园艺园林学院,黑龙江哈尔滨 150030

基金项目:

国家重点研发计划项目(2016YFC0500300)

哈尔滨市应用技术研究与开发项目(2015RQQXJ021)

摘要: 为了获得更多尖叶石竹(Dianthus spiculifolius)新品种,本研究利用EMS和60Co-γ射线对尖叶石竹种子进行了诱变处理。结果显示,处理时间为16 h时,1.0%的EMS浓度接近诱变的半致死剂量,变异率达到7.0%。当剂量率为0.1 Gy·min-1时,300 Gy的60Co-γ射线接近诱变的半致死剂量,变异率达到4.2%。通过表型观察共获得了1 038株M1代变异植株,其中,EMS诱变处理获得了95株,60Co-γ射线诱变处理获得了943株。本研究为丰富尖叶石竹种质资源提供了帮助,而且为石竹属其他植物的诱变研究提供了技术参考。

关键词:

English

Analysis of EMS and 60Co-γ mutagenesis of Dianthus spiculifolius seeds

College of Horticulture and Landscape Architecture, Northeast Agricultural University, Harbin 150030, Heilongjiang, China

Received Date: 2017-01-29
Publish Date: 2017-11-09

Abstract: In order to develop new varieties of Dianthus spiculifolius, we mutagenized seeds using EMS and 60Co-γ rays. Treatment of seeds for 16 h with 1% EMS, close to the half-lethal dose, resulted in a mutation rate of 7.0%. Seeds treated with 300 Gy 60Co-γ rays (dose rate 0.1 Gy·min-1, close to the half-lethal dose, resulted in a mutation rate of 4.2%. We obtained 1 038 phenotypic mutants in the M1 generation, of which 95 were derived from seeds treated with EMS, and 943 were obtained following irradiation of the seeds. This study has enriched the germplasm resources of D. spiculifolius and has provided a technical reference for the mutagenesis of other Dianthus species.

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参考文献(43)

[1]	Dong L H.Water-saving ground cover plants Dianthus spiculifolius Schur.Inner Mongolia Forestry Investigation and Design,2009,32(1):67-68.(in Chinese)
[1]	董丽华.节水地被尖叶石竹.内蒙古林业调查设计,2009,32(1):67-68.
[2]	Yu L Z,Wei Y P,Ma Y,Feng H S.Five kinds of cold-resistant and perennial flowers suitable for planting in Lanzhou.Gansu Agricultural Science and Technology,2010(1):41-42.(in Chinese)
[2]	于良祖,魏玉萍,马彦,冯海山.5种适宜兰州种植的耐寒宿根花卉.甘肃农业科技,2010(1):41-42.
[3]	梁艳萍,孙彦.地被植物尖叶石竹特性及栽培技术.西南园艺,2006,34(4):44-45.
[3]	Liang Y P,Sun Y.Characteristics and cultivation techniques of ground cover plants Dianthus spiculifolius Schur.Southwest HorticuIture,2006,34(4):44-45.(in Chinese)
[4]	Liang Y P,Sun Y,Yang Q C,Han J G,Dai Z X.The establishment system of tissue culture and plant regeneration of Dianthus spiculifolius Schur.Northern Horticulture,2007(4):210-212.(in Chinese)
[4]	Cristea V,Craciunas C,Marcu D,Palada M,Butiuc-Keul A.Genetic stability during in vitro propagation of Dianthus spiculifolius Schur.Propagation of Ornamental Plants,2014,14(1):26-31.
[5]	梁艳萍,孙彦,杨青川,韩建国,戴忠宪.地被植物尖叶石竹组织培养及再生体系的建立.北方园艺,2007(4):210-212.
[5]	Fan J P,Cai Z J,Chu X Q,Gong S F.Study on tissue culture and rapid propagation of Dianthus spiculifolius Schur.Journal of Northeast Agricultural University,2008,39(1):39-42.(in Chinese)
[6]	Jiang L,Li W H,Wang W C,Li W N.Effect of different concentration EMS on mutagenic fatality rate of sugarbeet seed.Sugar Crops of China,2013(1):28-29.(in Chinese)
[6]	樊金萍,柴志坚,初雪清,龚束芳.尖叶石竹组织培养及快繁技术.东北农业大学学报,2008,39(1):39-42.
[7]	Lu Y,Liu M Y,Zhao J J,Wang Y H,Luo S X,Xuan S X,Dai S Y,Wang C S,Shen S X.Construction of one mutant library and research on phenotypic variation of M 2 population leaves in Chinese cabbage.Acta Horticulturae Sinica,2014,41(8):1609-1619.(in Chinese)
[7]	姜莉,李卫华,王维成,李蔚农.不同浓度EMS对甜菜种子诱变致死率的影响.中国糖料,2013(1):28-29.
[8]	Greene E A,Codomo C A,Taylor N E,Henikoff J G,Till B J,Reynolds S H,Enns L C,Burtner C,Johnson J E,Odden A R,Comai L,Henikoff S.Spectrum of chemically induced mutations from a large-scale reverse-genetic screen in Arabidopsis.Genetics,2003,164(2):731-740.
[8]	Lu Y,Liu M Y,Wang C S,Wang S,Zhao J J,Wang Y H,Luo S X,Chen X P,Shen S X.Effects of EMS mutagenesis on seed and seedling vigor and phenotypic variation of M 2 population in Chinese cabbage.Journal of Plant Genetic Resources,2015,16(2):349-358.(in Chinese)
[9]	Chen T L,Wang Y R,Wang Y,Zhang J Y,Liu Z P.Construction of mutant populations by EMS and phenotypic analysis of Medicago truncatula .Pratacultural Science,2015,32(1):71-77.(in Chinese)
[9]	Wani M R,Khan S,Kozgar M I.Induced Chloropyll mutations.I.Mutagenic ellectiveness and elliciency of EMS,HZ and SA in mungbean.Frontiers of Agriculture in China,2011,5(4):514-518.
[10]	He H Y,Fan L N,Qi Y W,Lao F Y,Deng H H,Hu F.Mutagenesis application to Saccharum officinarum shoot tip culture with EMS.Chinese Agricultural Science Bulletin,2016,32(6):55-60.(in Chinese)
[10]	卢银,刘梦洋,赵建军,王彦华,罗双霞,轩淑欣,代双燕,王超硕,申书兴.大白菜突变体库的构建及M 2 叶片表型变异的研究.园艺学报,2014,41(8):1609-1619.
[11]	卢银,刘梦洋,王超硕,汪珊,赵建军,王彦华,罗双霞,陈雪平,申书兴.EMS处理对大白菜种子和幼苗活力的影响及M 2 表型变异分析.植物遗传资源学报,2015,16(2):349-358.
[11]	Zhang J W.Screening of strawberry mutants induced by EMS and construction of strawberry regeneration system.Master Theis.Hefei:Anhui Agriculture University,2014.(in Chinese)
[12]	Liao X Y,Yan J D,Zhong M,Zhuo Y H,Wu D,He R Q,Zhao X Y,Liu X M.EMS mutagenesis and analysis of multi-branched and long-silique mutants in Brassica napus L.Life Science Research,2016,20(5):435-441.(in Chinese)
[12]	陈天龙,王彦荣,王宇,张吉宇,刘志鹏.蒺藜苜蓿EMS诱变突变体库的构建及突变体表型的分析.草业科学,2015,32(1):71-77.
[13]	何慧怡,樊丽娜,齐永文,劳方业,邓海华,胡斐.EMS诱变甘蔗茎尖分生组织的初步研究.中国农学通报,2016,32(6):55-60.
[13]	Xiao X L,Liu J H,Yin D S,Song J W,Peng L.Advances in induced mutation breeding by radiation for horticultural plants.Guizhou Agricultural Sciences,2015,43(1):20-23.(in Chinese)
[14]	张经纬.草莓EMS诱变突变体筛选与再生体系建立.合肥:安徽农业大学硕士学位论文,2014.
[14]	Geng X M,Wang L G,Li N,Yang X L.Study on the seed germination and seedling growth of Osmanthus fragrans under 60 Co-#x003b3; irradiation.Journal of Nuclear Agricultural Sciences,2016,30(2):216-223.(in Chinese)
[15]	Bao J Z,Li F T,Sun Y,Liu C G,Ma H,Zhang T,Chen X L.Effects of 60 Co-#x003b3; rays seed irradiation on the germination characteristic and flowering traits of Clivia miniata .Journal of Nuclear Agricultural Sciences,2013,27(11):1681-1685.(in Chinese)
[15]	Watanabe S,Mizoguchi T,Aoki K,Kubo Y,Mori H,Imanishi S,Yamazaki Y,Shibata D,Ezura H.Ethylmethane sulfonate(EMS) mutagenesis of Solanum lycopersicum cv. Micro-Tom for largescale mutant screens.Plant Biotechnology,2007,24(1):33-38.
[16]	廖晓英,阎晋东,钟鸣,卓宇红,吴丹,贺热情,赵小英,刘选明.甘蓝型油菜EMS诱变及多分枝和长角突变体分析.生命科学研究,2016,20(5):435-441.
[16]	Kong S P,Duan N B,Liu B J,Gao L M,Liu B,Xu K.Study on tetraploids induction by different mutagens in Garlic .Journal of Nuclear Agricultural Sciences,2016,30(6):1067-1073.(in Chinese)
[17]	肖鑫丽,刘京宏,尹德松,宋静武,彭磊.辐射在园艺植物诱变育种中的应用研究进展.贵州农业科学,2015,43(1):20-23.
[17]	Wen L,Gong Y C,Chen J Q,Dai Z G,Su J G.Physiological and biochemical characteristics of mutant jute seedlings induced by EMS and 60 Co-#x003b3; radiation.Plant Fiber Sciences in China,2014,36(5):224-228,257.(in Chinese)
[18]	耿兴敏,王良桂,李娜,杨秀莲. 60 Co-#x003b3;辐射对桂花种子萌发及幼苗生长的影响.核农学报,2016,30(2):216-223.
[18]	Zhang D Y,Wu F,Zhang J Y,Wang Y R,Zhang Y,Luo D.Effect of colchicines and 60 Co-y-rays on germination of Cleistogenes songorica seeds.Pratacultural Science,2016,33(3):424-430.(in Chinese)
[19]	包建忠,李风童,孙叶,刘春贵,马辉,张甜,陈秀兰. 60 Co-#x003b3;射线辐照大花君子兰种子对其萌发特性及其开花性状的影响.核农学报,2013,27(11):1681-1685.
[19]	Han Y N,Wu Q,Gao R,Ma M,Zhao H Y.Effects of 60 Co-y radiation on seed germination of Glycyrrhiza uralensis under Na 2 SO 4 stress.Pratacultural Science,2015,32(3):421-426.(in Chinese)
[20]	孔素萍,段乃彬,刘冰江,高莉敏,刘波,徐坤.不同诱变剂对大蒜四倍体诱导的影响.核农学报,2016,30(6):1067-1073.
[21]	温岚,龚友才,陈基权,戴志刚,粟建光.EMS和 60 Co-#x003b3;射线辐照复合诱变黄麻突变体苗期生理生化特性研究.中国麻业科学,2014,36(5):224-228,257.
[22]	张代玉,吴凡,张吉宇,王彦荣,张岩,罗栋.秋水仙素和 60 Co-#x003b3;射线对无芒隐子草种子萌发的影响.草业科学,2016,33(3):424-430.
[23]	韩亚楠,吴琼,高睿,马淼,赵红艳. 60 Co-#x003b3;辐照对Na2SO4胁迫下乌拉尔甘草种子发芽特性的影响.草业科学,2015,32(3):421-426.
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尖叶石竹种子的EMS和60Co-γ诱变

English

Analysis of EMS and 60Co-γ mutagenesis of Dianthus spiculifolius seeds

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