Establishment of in vitro culture, plant regeneration, and genetic transformation of Camelina sativa

被引:17
|
作者
Yemets, A. I. [1 ]
Boychuk, Yu. N. [1 ]
Shysha, E. N. [1 ]
Rakhmetov, D. B. [2 ]
Blume, Ya. B. [1 ]
机构
[1] Natl Acad Sci Ukraine, Inst Food Biotechnol & Genom, Kiev, Ukraine
[2] Natl Acad Sci Ukraine, Gryshko Natl Bot Garden, Kiev, Ukraine
来源
CYTOLOGY AND GENETICS | 2013年 / 47卷 / 03期
关键词
SHOOT REGENERATION; EMBRYOGENESIS; FUSION; L;
D O I
10.3103/S0095452713030031
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
The results of establishing an in vitro culture, plantlet regeneration, and rooting of Camelina sativa cultivar Peremozhets and cultivar Mirazh are presented. The effective concentrations of sterilizing agents and the duration of plant material treatment were estimated. The phytohormone ratio, the sucrose concentration in the nutrient medium that induced the effective formation of C. sativa shoots, and the NAA concentration for plantlet rooting have been established. A method of Agrobacterium-mediated transformation of Camelina by using binary vector pGH217 carrying the reporter beta-glucoronidase (gus) gene driven under the 35S CaMV promoter and nos-terminator, as well as the selective marker hpt gene conferring hygromycin-resistance in transgenic plant, was elaborated.
引用
收藏
页码:138 / 144
页数:7
相关论文
共 50 条
  • [1] Establishment of in vitro culture, plant regeneration, and genetic transformation of Camelina sativa
    A. I. Yemets
    Yu. N. Boychuk
    E. N. Shysha
    D. B. Rakhmetov
    Ya. B. Blume
    Cytology and Genetics, 2013, 47 : 138 - 144
  • [2] Establishment and in vitro regeneration studies of the potential oil crop species Camelina sativa
    Alex Tattersall
    Steve Millam
    Plant Cell, Tissue and Organ Culture, 1998, 55 : 147 - 150
  • [3] Establishment and in vitro regeneration studies of the potential oil crop species Camelina sativa
    Tattersall, A
    Millam, S
    PLANT CELL TISSUE AND ORGAN CULTURE, 1998, 55 (02) : 147 - 149
  • [4] Establishment of high frequency regeneration and genetic transformation system of Medicago sativa
    Liang, HM
    Xia, Y
    Wang, TM
    Liu, DX
    Chai, CH
    Zeng, HT
    Tang, YM
    PROCEEDINGS OF THE CHINA ASSOCIATION FOR SCIENCE AND TECHNOLOGY, VOL 1, NO 2, 2004, : 60 - 65
  • [5] In vitro plant regeneration and genetic transformation of Dichanthium annulatum
    Kumar, J
    Shukla, SM
    Bhat, V
    Gupta, S
    Gupta, MG
    DNA AND CELL BIOLOGY, 2005, 24 (11) : 670 - 679
  • [6] Establishment of an in vitro regeneration system for genetic transformation of selected sugarcane genotypes
    Ijaz, S.
    Rana, I. A.
    Khan, I. A.
    Saleem, M.
    GENETICS AND MOLECULAR RESEARCH, 2012, 11 (01): : 512 - 530
  • [7] In vitro culture establishment and plant regeneration of Arbutus unedo L.
    Durul, M. Sulusoglu
    Memis, S.
    XXX INTERNATIONAL HORTICULTURAL CONGRESS (IHC2018): II INTERNATIONAL SYMPOSIUM ON MICROPROPAGATION AND IN VITRO TECHNIQUES, 2020, 1285 : 109 - 112
  • [8] ESTABLISHMENT OF AN EFFICIENT PLANT REGENERATION CULTURE PROTOCOL AND ACHIEVEMENT OF SUCCESSFUL GENETIC TRANSFORMATION IN JATROPHA CURCAS L.
    Liu, Ying
    Liu, Guoxuan
    Yang, Yali
    Niu, Sufang
    Yang, Fuguang
    Yang, Shaoxia
    Tang, Jianian
    Chen, Jianping
    ACTA BIOLOGICA HUNGARICA, 2017, 68 (04): : 428 - 442
  • [9] Establishment of an Efficient Plant Regeneration Culture Protocol and Achievement of Successful Genetic Transformation in Jatropha curcas L.
    Ying Liu
    Guoxuan Liu
    Yali Yang
    Sufang Niu
    Fuguang Yang
    Shaoxia Yang
    Jianian Tang
    Jianping Chen
    Acta Biologica Hungarica, 2017, 68 : 428 - 442
  • [10] In Vitro Regeneration of Camelina sativa, the Most Promising Second-generation Biofuel
    Chennavasin, Michael
    Fisher, Jodie
    Iqbal, Aniam
    Patel, Pooja
    Josekutty, Puthiyaparambil
    Rudrabhatla Dr
    Potlakayala Dr
    IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL, 2010, 46 : S15 - S15
12345