分别以橡胶草(Taraxacum kok-saghyz Rodin)叶片、叶柄、根段为外植体,以MS为基本培养基,比较不同激素浓度对橡胶草不同器官直接分化再生苗的影响。结果表明:橡胶草不同器官直接分化再生苗所需最佳激素浓度不同。(1)最适合诱导叶片和叶柄直接芽分化再生苗的激素浓度均为NAA 0.2 mg/L6-BA 0.5 mg/L,其芽分化率和每外植体平均芽数分别为36.44%、38.83个和95.83%、10.56个;(2)最适合诱导根段直接芽分化再生苗的激素浓度为NAA 1.0 mg/L6-BA 0.1 mg/L,其芽分化率和每外植体平均芽数分别为92.25%和21.49个。该研究为橡胶草高频再生体系的建立及进一步利用基因工程进行品种改良奠定了基础。
Abstract
In order to study the differentiation abilities of regeneration plants of different organs under different hormone concentrations, vitro leaves, petiole and root segment of Taraxacum kok-saghyz Rodin were used as explants and MS as basic culture medium. The results showed that: the best hormone concentrations for bud induction of different organs of Taraxacum kok-saghyz Rodin were different, (1) NAA 0.2 mg/L 6-BA 0.5 mg/L was most suitable for regeneration by bud induction of leaf and petiole, and the differentiation rate and the number of the average bud per explant were 36.44%, 38.83, 95.83%, 10.56, respectively; (2) NAA 1.0 mg/L 6- BA 0.1 mg/L was most suitable for regeneration by bud induction of root, the differentiation rate and the number of the average bud per explant were 95.25% and 21.49, respectively. The results lay a foundation for the establishment of a high frequency regeneration system and further variety improvement by using gene engineering technology.
关键词
橡胶草;器官 直接分化;再生苗
{{custom_keyword}} /
Key words
Taraxacum kok-saghyz Rodin; organs; direct differentiation; regeneration plants
{{custom_keyword}} /
{{custom_sec.title}}
{{custom_sec.title}}
{{custom_sec.content}}
参考文献
[1]van Beilen J B., Poirier Y. Guayule and Russian dandelion as alternative sources of natural rubber[J]. Critical Reviews in Biotechnology,2007,27(4):217-231.
[2]Zhang, Y. X.,Iaffaldano B. J.,Xie. W. S.,et al. Rapid and hormone-free Agrobacterium rhizogenes-mediated transformation in rubber producing dandelions Taraxacum kok-saghyz and T[J]. brevicorniculatum.Industrial Crops and Products, 2015,66: 110-118.
[3]焉妮,萨日娜,孙树泉,等.蒲公英橡胶──一种亟需大力研究的NR[J]. 橡胶工业,2011,58(10):632-637.
[4]张立群,张继川,王峰,等.全球天然橡胶发展趋势及我国多元化发展之路(下) [J]. 中国橡胶,2013,22:18-20.
[5]梁素钰,李琳,王文帆,等.浅谈橡胶草胶乳品质影响因素[J].现代化农业,2014,(7):38-39
[6]van Beilen J B.,Poirier Y. Establishment of new crops for the production of natural rubber[J]. TRENDS in Biotechnology,2007,25(11):522-529.
[7]Schmidt T,Hillebrand A,Wurbs D,et al. Molecular cloningand characterization of rubber biosynthetic genes from Taraxacum koksaghyz[J]. Plant Molecular Biology Reporter,2010, 28(2):277-284.
[8]安锋,林位夫,谢贵水,等.国内外巴西橡胶树替代作物及技术研发现状[J]. 热带作物学报,2012,33(6):1134-1141.
[9]Mooibroek H,Cornish K. Alternative sources of natural rubber[J]. Applied microbiology and biotechnology, 2000,53: 355-365.
[10]Munt O.,Arias M.,Hernandez M.,Ritter E.,et al. Fertilizer and planting strategies to increase biomass and improve root morphology in the natural rubber producer Taraxacum brevicorniculatum[J]. Industrial Crops and Products,2012,36(1): 289-293.
[11]Coffelt T.A.,Nakayama F. S.,Ray D. T.,et al. Plant population,planting date,and germplasm effects on guayule latex, rubber, and resin yields[J]. Industrial Crops and Products, 2009,229(1):255-260.
[12]王启超,刘实忠,校现周.橡胶草HMGR基因的克隆及表达分析[J]. 植物研究,2012,32(1):61-68.
[13]黄荣辉,校现周,仇键,等. 橡胶草胶乳蛋白双向电泳方法的建立[J]. 热带作物学报,2013,34(2):272-275.
[14]罗成华.橡胶草高频再生体系的建立及遗传转化的研究[D]. 石河子大学硕士学位论文,2013.
[15]李若霖.橡胶草种质资源遗传多样性研究[D]. 海南大学硕士学位论文,2012.
[16]李俊强,林利华,张帆,等.早开堇菜组织培养及植株再生体系的建立[J]. 草业学报,2015,24(11):163-173.
[17]郭兆武,郭旭春,高建芳,等.黄花石蒜不同外植体的组织培养研究[J]. 西北植物学报,2010,30(8):1695-1700.
[18]姜中武,苏佳明,段小娜,等.红将军苹果离体叶片高频再生体系研究[J].果树学报,2008, 25(6):797-800,F0003
[19]杜希华,孙秀玲,郝岗平,等.不同外植体和激素对银杏愈伤组织诱导和生长的影响[J]. 山东师范大学学报(自然科学版),2008,23(1):129-133.
[20]孟玉玲,皓云鹏,贾敬芬,等.红三叶组织培养及再生植株[J]. 草业学报,1994,3(2):51-54.
{{custom_fnGroup.title_cn}}
脚注
{{custom_fn.content}}
PDF(1614 KB)
