|Table of Contents|

Emergence and Genetic Variation of Vegetable Soybean Treated with Plasma Implantation Mutation Method(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2009年06期
Page:
990-993,999
Research Field:
Publishing date:

Info

Title:
Emergence and Genetic Variation of Vegetable Soybean Treated with Plasma Implantation Mutation Method
Author(s):
MA Hai-linFAN Zhi-xiangAN WeiMI Xiao-hongWANG Ji-hu
Maize Research Institute,Shanxi Academy of Agricultural Sciences,Xinzhou 034000,Shanxi,China
Keywords:
Plasma implantationEmergence rateGenetic variation
PACS:
S565.1
DOI:
10.11861/j.issn.1000-9841.2009.06.990
Abstract:
The objective of the study is to explore influence of different doses of N+implantation on vegetable soybean seeding emergence rate and genetic variation of future generations.We studied the seedling emergence rate and genetic variation of offspring with 12 soybean varieties using plasma implantation method with three different doses(6×1016,8×1016,1×1017)of nitrogen ion.The seedling emergence rates of all soybean varieties were reduced by three doses of nitrogen ion;no significant difference for seedling emergence rate was detected using the F test among three treatment,but the differences of seedling emergence rate among varieties reached significant levels.The study on genetic variation of generations showed that some plants have contemporary variation in mutation,such as the larger leaves,the higher plants,the longer and wider pod,etc.,but these differences did not occur in the mutant offspring.We also found some plants showed no phenotype variation in M1,but segregation of character related to plant height,flower color and leaf shape occurred in their offspring.

References:

[1]余增亮,邱励俭,霍裕平,等.离子注入生物效应及育种研究进展[J].安徽农业大学学报,1991,18(4):251-257.(Yu Z L ,Qiu L J,Huo Y P,et al.Progress in studies of biological effect and crop breeding induced by ion implantation[J].Journal of Anhui Agricultural Col1ege,1991,18(4):251-257.)

[2]吴跃进,王学栋,刘贵富.离子注入水稻诱变育种机理初探\[J\].安徽农业科学,1989,17(1):12-16.(Wu Y J,Wang X D,Liu G F,et al.Studies on the mutagenic effect of ion implantation on rice[J].Journal of Anhui Agricultural Sciences,1989,17(1):12-16.)
[3]徐明照,周立人,程备久.氮离子注入玉米种子的细胞生物学效应[J].中国农学通报,2007,23(ll):77-80.(Xu M Z,Zhou L R,Cheng B J.Cytological effects of nitrogen ion implantation in maize seeds[J].Chinese Agricultural Science Bulletin,2007,23(ll):77-80.)
[4]周小云,计巧灵,刘亚萍,等.氮离子束注入对新疆春小麦M1代生物学效应的影响[J].新疆大学学报(自然科学版),2005,22(4):462-464.(Zhou X Y,Ji Q L,Liu Y P,et al.Influence of low energy N+ Ion implantation on biological effects of Xinjiang spring wheat[J].Journal of Xinjiang University(Natural Science Edition),2005,22(4):462-464.)
[5]郭金华,王浩波,谢传晓,等.低能氮离子注入对大豆幼苗脂质过氧化的影响[J].辐射研究与辐射工艺学报,2003,21(4):243-246.(Guo J H,Wang H B,Xie C X,et al.Effects of N+Ion implantation on lipid peroxidation in soybean seedling [J].Journal of Radiation Research and Radiation Processing,2003,21(4):243-246.)
[6]岳洁瑜,杨郁文,于艳杰,等.N+离子注人陆地棉花粉对胚珠DNA及M1代cDNA表达的影响[J].核农学报,2009,23(1):54-59.(Yue J Y,Yang Y W,Yu Y J ,et al.Effects of N+ Ion implantation into pollen of upland cotton(Gossypium hirsutum L.)on the expression of ovule DNA and the cDNA fragments of Ml progeny[J].Journal of Nuclear Agricultural Science,2009,23(1):54-59.)
[7]那日,冯璐,李玉峰.低能N+离子注入对紫花苜蓿幼苗生长和营养成分的影响[J].干旱地区农业研究,2004,22(3):38-42.(Na R,Feng L,Li Y F.Effect of N+ Ion implantation on growth and nutritional component of medicago sativa[J].Agricultural Research in the Arid Areas,2004,22(3):38-42.)
[8]沈以凌,谢飞,虞龙.低能氮离子注入在γ-1亚麻酸发酵中的应用研究[J].中国酿造,2009(1):96-99.(Shen Y L,Xie F,Yu L.Application of N+ Ions implantation in fermentation ofγ-1 linolenic acid[J].China Brewing,2009(1):96-99.)
[9]张太平,朱星陶,王军等.贵州大豆脂肪氧化酶缺失体的分布及其与生态环境的关系[J].种子,1999(3):8-10.(Zhang T P,Zu X T,Wang J,et al.Distribution and relationship with eco-environment of guizhou soybean varieties lacking lipoxygenase[J].Seed,1999(3):8-10.)
[10]程国旺,黄群策,余增亮.氮离子注入油菜M1代的生物学效应[J].核技术,2004,27(4):281-284.(Cheng G W,Huang Q C,Yu Z L.Biological effects of nitrogen ion implantation on rape Ml generation[J].Nuclear Techniques,2004,27(4):281-284.)
[11]郭金华,谢传晓,徐剑等.N+离子注入对大豆种子活力及其幼苗的抗氧化酶活性影响[J].激光生物学报,2003,12(5):368-372.(Guo J H,Xie C X,Xu J,et at.Effects of N+ Ion implantation on seed vigor of soybean and some antioxidase activity in soybean seedling[J].Acta Laser Biology Sinica,2003,12(5):368-372.)
[12]王军,武宝山,张伶,等.茄子、蕃茄、辣椒种子经N+离子注入后的生物效应[J].种子,2002(5):9-10.(W J,Wu B S,Z L,et al.Biological effect of N+ Ion implantation on the seeds of aubergine tomato and hot pepper[J].Seed,2002(5):9-10.)
[13]吕杰,李冠,王新绘.低能离子注入对紫花苜蓿种子发芽及幼苗生理生化变化的影响[J].种子,2004,23(8):32-41.(LV J,Li G,Wang X H.Effect of low energy ions implantation on seed germination and physiological and biochemical changes of alfalfa[J].Seed,2004,23(8):32-41.)
[14]刘瑞峰,张志飞,刘卫等.N+离子束注入对高羊茅种子发芽率的影响[J].中南林业科技大学学报,2008,28(5):81-88.(Liu R F,Zhang Z F,Liu W,et al.Effects of N+?Ion beam implantation on the germination rate of Festuca arundinacea[J].Journal of Central South University of Forestry&Technology,2008,28(5):81-88.)
[15]吐尔逊 伊不拉音,李茜,武宝山,等.离子束诱变蔬菜、药材等种子M1生物效应[J].种子,2001(5):3-4.(Tuersun?YibuIayjn,Li Q,Wang J,et al.Biological effect on vegetable and herb seeds in M1?generation by ion beam mutation[J].Seed,2001(5):3-4.)
[16]陈冬花,梁前进,张根发.离子注入拟南芥种子引起M1和M2代变异的遗传分析[J].高技术通讯,2001(10):22-25.(Cheng D H,Liang Q J,Zhang G F,et al.Genetics analysis of mutagenic effect on M1and M2of Arabidopsis thaliana derived from the seeds implanted by low energy ion[J].High Technology Letters,2001(10):22-25.)
[17]王卫东,王燕,王雪青,等.氮离子注入后拟南芥种子表皮的扫描电镜观察[J].电子显微学报,2004,23(2):148-151.(Wang W D,Wang Y,Wang X Q,et al.SEM observation of the Arabidopsis thaliana ?seed’s surface cell implanted by keV N+Ion beam[J].Journal of Chinese Electron Microscopy Society,2004,23(2):148-151.)

Memo

Memo:
-
Last Update: 2014-09-11