Abstract
An efficient procedure for obtaining transgenicBrassica napus plants usingAgrobacterium binary vectors is described. The target tissue for the transformation is the cut end of cotyledonary petioles. These tissues, when cultured with their lamina intact, show a regeneration frequency of more than 80%. The cells of this cut surface, which undergo organogenesis, are very susceptible to topical infection byAgrobacterium. The cocultivation method used does not require feeder layers or use of exogenously applied promoters of virulence. After 72h of infection withAgrobacterium the explants were transferred to selective regeneration medium. Using kanamycin (15μg cm−3) for selection, transgenic plantlets emerged within 3 weeks. These plantlets which appeared on over half the explants were excised and rooted for a further 7–10 days. When the plants were large enough, leaves were taken for assay of NPT II activity using dot blots. Most of the plants surviving the selection showed substantial NPT II activity. The frequency of transformation and yield of transgenic plants was higher than in previously reported methods with this species. Southern blotting revealed that integration of the T-DNA frequently occurred in multiple copies and at multiple loci in the genome. The transgenicB. napus plants all grew normally and developed fertile flowers. The transgenic plants were self-pollinated and their progeny studied by two methods. The first was a single-embryo NPT II assay performed on developing seeds of these selfed-plants. The second was a leaf bleaching assay performed by selection of germinating seedlings of the selfed progeny. Both assays yielded segregation ratios consistent with the number of integration events indicated by Southern blots. The method should have broad application in studies of gene expression in theBrassicaceae and will be a cost-effective alternative to those seeking to improveBrassica crops by introduction of foreign genes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- NPT II:
-
neomycin phosphotransferase
- MS:
-
Murashige-Skoog
- CTAB:
-
cetyl trimethyl ammonium bromide
- CaMV:
-
cauliflower mosaic virus
- NOS:
-
nopaline synthetase
Bibliography
Bevan M (1984) Nucleic Acids Research12 8711–8718
Charest PJ, Holbrook LA, Gabard J, Iyer VN, Miki BL (1988) Theor. Appl. Genet.75 438–445
Chuong PV, Deslauriers C, Kott LS, Beversdorf WD (1987) Can. J. Bot.66 1653–1657.
Crouch ML, Tenbarge K, Simon A, Finkelstein R, Scofield S, Solberg L (1985)in Molecular Form and Function of the Plant Genome. eds. Van Vloten-Doting, Groot and Hall. Plenum Press, pp. 555–566.
Feinberg AP, Vogelstein B (1984) Anal. Biochem. 137, 266–267.
Food and Agriculture Organisation of the United Nations (F.A.O.) Commodity review and outlook, 1986–87. F.A.O. Economic and Social Dev. Series no. 43. F.A.O., Rome, Italy pp. 41–47.
Fry J, Barnason A, Horsch RB (1987) Plant Cell Reports6 321–325
Garfinkel DJ, Nester EW (1980) J Bacteriol144 732–743
Gleba YY, Hoffmann F (1980) Planta149 112–117.
Guerche P, Charbonnier M, Jouanin L, Tourneur C, Paszkowski J, Pelletier G (1987) Plant Sci.52 111–116.
Harada JJ, Baden CS, Comai L (1988) Mol. Gen Genet.212 466–473
Hood EE, Helmer GL, Fraley RT, Chilton M-D (1986) J Bacteriol168 1291–1301
Jefferson RA, Harkins KR, Bevan MW, Kavanaugh TA, Galbraith DW (1987) Proc. Natl. Acad. Sci. USA83 8447–8451
Kay R, Chan A, Daly M, McPherson J (1987) Science236 1299–1302
Keller WA, Armstrong KC (1978) Z. Pflanzenzucht.80 100–108.
Kilmaszweska K, Keller WA (1985) Plant Cell, Tissue and Organ Cult.4 183–197
Maniatis T, Fritsch EF, Sambrook J (1982) Molecular cloning: a laboratory manual. Cold Spring Harbour Press, NY
Neuhaus G, Spangenberg G, Mittelsten-Scheid O, Schweiger H-G (1987) Theor. Appl. Genet.75 30–36.
Newell CA, Rhoads ML, Bidney DL (1984) Can. J. Genet. Cytol.2 752–761.
Pelletier G, Primard C, Vedel F, Chetrit P, Remy R, Renard R, Renard M (1983) Mol. Gen. Genet.191 244–250.
Pua E-C, Mehra-Palta A, Nagy F, Chua N-H (1987) Bio/Technology5 815–817.
Radke SE, Andrews BM, Moloney MM, Crouch ML, Kridl, JC, Knauf VC (1988) Theor. Appl. Genet.75 685–694.
Rogers SO, Bendich AJ (1988)in “Plant Molecular Biology Manual” A6 1–10 eds Gelvin SB, Schilperoort RA, Kluwer Academic.
Schmidt R, Willmitzer L (1988) Plant Cell Reports7 583–586
Sharma KK (1987)Ph.D. Thesis “Control of organ differentiation from somatic tissues and pollen embryogenesis in anther cultures ofB juncea” Dept of Botany, University of Dehli.
Stachel SE, Messens E, Van Montagu M, Zambryski P (1985) Nature318 624–629
Stringham GR (1977) Plant Sci. Lett.9 115–119.
U, N (1935) Japan J. Bot.7 389–452
Watson B, Currier TC, Gordon MP, Chilton M-D, Nester EW (1975) J Bacteriol.123 255–264
Williams PA, Hill CB (1986) Science232 1385–1389
Willmitzer L, Dhaese P, Schreier PH, Schmalenbach W, Van Monatague M, Schell J (1983) Cell32 1045–1056
Xu Z-H, Davey MR, Cocking EC (1982) Plant Sci. Lett.24 117–121.
Author information
Authors and Affiliations
Additional information
Communicated by F. Constabel
Rights and permissions
About this article
Cite this article
Moloney, M.M., Walker, J.M. & Sharma, K.K. High efficiency transformation ofBrassica napus usingAgrobacterium vectors. Plant Cell Reports 8, 238–242 (1989). https://doi.org/10.1007/BF00778542
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00778542