Stable transformation of the cotton plastid genome and maternal inheritance of transgenes (original) (raw)
References
Bateman, J. M. and Purton, S. 2000. Tools for chloroplast transformation in Chlamydomonas: expression vectors and a new dominant selectable marker. Mol. Gen. Genet. 263: 404-410. PubMed Google Scholar
Bendich, A. J. 2004. Circular chloroplast chromosomes: the grand illusion. Plant Cell 16: 1661-1666. PubMed Google Scholar
Bogorad, L. 2000. Engineering chloroplasts: an alternative site for foreign genes, proteins, reactions and products. Trends Biotechnol. 18: 257-263. PubMed Google Scholar
Carrer, H., Hockenberry, T. N., Svab, Z. and Maliga, P. 1993. Kanamycin resistance as a selectable marker for plastid transformation in tobacco. Mol. Gen. Genet. 241: 49-56. PubMed Google Scholar
Chiu, W. L. and Sears, B. B. 1992. Electron microscopic localization of replication origins in Oenothera chloroplast DNA. Mol. Gen. Genet. 232: 33-39. PubMed Google Scholar
Christou, P. 1992. Genetic transformation of crop plants using microprojectile bombardment. Plant J. 2: 275-281. Google Scholar
Cline, J., Braman, J. C. and Hogrefe, H. H. 1996. PCR delity of Pfu DNA polymerase and other thermostable DNA polymerases. Nucleic Acids Res. 24: 3546-3551. PubMed Google Scholar
Corneille, S., Lutz, K., Svab, Z., and Maliga, P. 2001. Efficient elimination of selectable marker genes from the plastid genome by the CRE-lox site-specific recombination system. Plant J. 27: 171-178. PubMed Google Scholar
Daniell, H. 1997. Transformation and foreign gene expression in plants mediated by micoprojectile bombardment. Methods Mol. Biol. 62: 463-489. PubMed Google Scholar
Daniell, H. 2000. Genetically modified food crops: current concerns and solutions for next generation crops. In: S. E. Harding (Ed. ), Biotechnology and Genetic Engineering Reviews, Intercept, Andover, vol. 17, pp. 327-352.
Daniell, H. 2002. Molecular strategies for gene containment in transgenic crops. Nat. Biotechnol. 20: 581-586. PubMed Google Scholar
Daniell, H. and Dhingra, A. 2002. Multigene engineering: dawn of an exciting new era in biotechnology. Curr. Opin. Biotechnol. 13: 136-141. PubMed Google Scholar
Daniell, H. and Parkinson, C. L. 2003. Jumping genes and containment. Nat. Biotechnol. 21: 374-375. PubMed Google Scholar
Daniell, H., Carmona-Sanchez, O. and Burns, B. 2004a. Chloroplast derived antibodies, biopharmaceuticals and edible vaccines. In: S. Schillberg (Ed. ), Molecular Farming, pp. 113-133. Wiley-VCH Verlag publishers, Germany. Google Scholar
Daniell, H., Cohill, P., Kumar, S., and Dufourmantel, N. 2004b. Chloroplast genetic engineering. In: H. Daniell and C. Chase (Eds. ), Molecular Biology and Biotechnology of Plant Organelles, Kluwer Academic Publishers, Dordrecht, pp. 423-468. Google Scholar
Daniell, H., Datta, R., Varma, S., Gray, S. and Lee, S. B. 1998. Containment of herbicide resistance through genetic engineering of the chloroplast genome. Nat. Biotechnol. 16: 345-348. PubMed Google Scholar
Daniell, H., Dhingra, A. and Allison, L., 2002a. Chloroplast transformation: from basic molecular biology to biotechnology. Rev. Plant Physiol. Biochem. 1: 1-20. Google Scholar
Daniell, H., Khan, M. S. and Allison, L. 2002b. Milestones in chloroplast genetic engineering: an environmentally friendly era in biotechnology. Trends Plant Sci. 7: 84-91. PubMed Google Scholar
Daniell, H., Krishnan, M. and McFadden, B. F. 1991. Transient expression of beta-glucuronidase in di. erent cellular com-partments following biolistic delivery of foreign DNA into wheat leaves and calli. Plant Cell Rep. 9: 615-619. Google Scholar
Daniell, H., Lee, S. B., Panchal, T. and Wiebe, P. O. 2001. Expression of cholera toxin B subunit gene and assembly as functional oligomers in transgenic tobacco chloroplasts. J Mol. Biol. 311: 1001-1009. PubMed Google Scholar
Daniell, H., Ruiz, O. N. and Dhingra, A. 2004c. Chloroplast genetic engineering to improve agronomic traits in transgenic Plants. Methods Mol. Biol. 286: 111-137. Google Scholar
Daniell, H., Vivekananda, J., Nielsen, B. L., Ye, G. N., Tewari, K. K., and Sanford, J. C. 1990. Transient foreign gene expression in chloroplasts of cultured tobacco cells after biolistic delivery of chloroplast vectors. Proc. Natl. Acad. Sci. USA 87: 88-92. PubMed Google Scholar
DeCosa, B., Moar, W., Lee, S. B., Miller, M. and Daniell, H. 2001. Overexpression of the Bt Cry2Aa2 operon in chloroplasts leads to formation of insecticidal crystals. Nat. Biotechnol. 19: 71-74. PubMed Google Scholar
DeGray, G., Rajasekaran, K., Smith, F., Sanford, J. and Daniell, H. 2001. Expression of an antimicrobial peptide via the chloroplast genome to control phytopathogenic bacteria and fungi. Plant Physiol. 127: 852-862. PubMed Google Scholar
Devine, A. and Daniell, H. 2004. Chloroplast genetic engineering for enhanced agronomic traits and expression of proteins for medical/industrial applications. In: S. G. Møller (Ed. ), Plastids, Blackwell publishing, Oxford, pp. 283-320. Google Scholar
Dhingra, A. and Daniell, H. 2004. Chloroplast genetic engineering via organogenesis or somatic embryogenesis. Arabidopsis protocols 2: in press.
Dhingra, A., Portis Jr., A. R. and Daniell, H. 2004. Enhanced translation of a chloroplast expressed _Rbc_S gene restores SSU levels and photosynthesis in nuclear antisense _Rbc_S plants. Proc. Natl. Acad. Sci. USA 101: 6315-6320. PubMed Google Scholar
Fernandez-San Millan, A., Mingo-Castel, A. and Daniell, H. 2003. Chloroplast transgenic approach to hyper-express and purify human serum albumin, a protein highly susceptible to proteolytic degradation. Plant Biotechnol. J. 1: 71-79. Google Scholar
Finer, J. J. and McMullen, M. D. 1990. Transformation of cotton Gossypium hirsutum L. via particle bombardment. Plant Cell Rep. 8: 586-589. Google Scholar
Fischer, N., Stampacchia, O., Redding, K., Rochaix, J. D. 1996. Selectable marker recycling in the chloroplast. Mol. Gen. Genet. 251: 373-380. PubMed Google Scholar
Fujitani, Y., Yamamoto, K. and Kobayashi, I. 1995. Dependence of frequency of homologous recombination on the homology length. Genetics 140: 797-809. PubMed Google Scholar
Gamborg, O. L., Miller, R. A. and Ojima, K. 1968. Nutrient requirements of suspension cultures of soybean root cells. Exp. Cell Res. 50: 151-158. PubMed Google Scholar
Guda, C., Lee, S. B. and Daniell, H. 2000. Stable expression of biodegradable protein based polymer in tobacco chloroplasts. Plant Cell Rep. 19: 257-262. Google Scholar
Hagemann, R. 2004. The sexual inheritance of plant organelles. In: H. Daniell and C. Chase (Eds. ), Molecular Biology and Biotechnology of Plant Organelles, Kluwer Academic Publishers, Dordrecht, pp. 87-108. Google Scholar
Hajdukiewicz, P. T. J., Gilbertson, L. and Staub, J. M. 2001. Multiple pathways for Cre/lox-mediated recombination in plastids. Plant J. 27: 161-170. PubMed Google Scholar
Hedrick, L. A., Heinhorst, S., White, M. A. and Cannon, G. C. 1993. Analysis of soybean chloroplast DNA replication by two-dimensional gel electrophoresis. Plant Mol. Biol. 23: 779-792. PubMed Google Scholar
Hilder, V. A. and Boulter, D. 1999. Genetic engineering of crop plants for insect resistance-a critical review. Crop Protection 18: 177-191. Google Scholar
Hou, B. K., Zhou, Y. H., Wan, L. H., Zhang, Z. L., Shen, G. F., Chen, Z. H. and Hu, Z. M. 2003. Chloroplast transformation in oilseed rape. Transgenic Res. 12: 111-114. PubMed Google Scholar
Huang, C. Y., Ayliffe, M. A. and Timmis, J. N. 2003a. Direct measurement of the transfer rate of chloroplast DNA into the nucleus. Nature 422: 72-76. PubMed Google Scholar
Huang, C. Y., Ayliffe, M. A., and Timmis, J. N. 2003b. Organelle evolution meets biotechnology. Nat. Biotechnol. 21: 489-490. PubMed Google Scholar
Huang, F. C., Klaus, S., Herz, S., Zou, Z., Koop, H. U. and Golds T. 2002. Efficient plastid transformation in tobacco using the aph A-6 gene and kanamycin selection. Mol. Gen. Genet. 268: 19-27. Google Scholar
Iamtham, S. and Day, A. 2000. Removal of antibiotic resistance genes from transgenic tobacco plastids. Nat. Biotechnol. 18: 1172-1176. PubMed Google Scholar
Khan, M. S. and Maliga, P. 1999. Fluorescent antibiotic resistance marker for tracking plastid transformation in higher plants. Nat. Biotechnol. 17: 910-915. PubMed Google Scholar
Klaus, S. M., Huang, F. C., Golds, T. J. and Koop, H. U. 2004. Generation of marker-free plastid transformants using a transiently cointegrated selection gene. Nat. Biotechnol. 22: 225-229. PubMed Google Scholar
Kolodner, R. D. and Tewari, K. K. 1975. Chloroplast DNA from higher plants replicates by both the Cairns and rolling circle mechanism. Nature 256: 708-711. PubMed Google Scholar
Kota, M., Daniell, H., Varma, S., Garczynski, S. F., Gould, F. and William, M. J. 1999. Overexpression of the Bacillus thuringiensis (Bt)Cry2Aa2 protein in chloroplasts confers resistance to plants against susceptible and _Bt_-resistant insects. Proc. Natl. Acad. Sci. USA 96: 1840-1845. PubMed Google Scholar
Kumar, S. and Daniell, H. 2004. Engineering the chloroplast genome for hyper-expression of human therapeutic proteins and vaccine antigens in Recombinant Protein Protocols. Methods Mol. Biol. 267: 365-383. PubMed Google Scholar
Kumar, S., Dhingra, A. and Daniell, H. (2004). Plastid expressed betaine aldehyde dehydrogenase gene in carrot cultured cells, roots and leaves confers enhanced salt tolerance. Plant Physiol. 136: 2843-2854. PubMed Google Scholar
Kumar, S., Sharma, P. and Pental, D. 1998. A genetic approach to in vitro regeneration of non regenerating cotton (Gossy-pium hirsutum L. )cultivars. Plant Cell Rep. 18: 59-63. Google Scholar
Kunnimalaiyaan, M. and Nielsen, B. L. 1997a. Chloroplast DNA replication: mechanism, enzymes and replication origins. J. Plant Biochem. Biotechnol. 6: 1-7. Google Scholar
Kunnimalaiyaan, M. and Nielsen, B. L. (1997b). Fine mapping of replication origins (ori A and ori B)in Nicotiana tabacum chloroplast DNA. Nucleic Acids Res. 25: 3681-3686. PubMed Google Scholar
Kunnimalaiyaan, M., Shi, F. and Nielsen, B. L. 1997. Analysis of the tobacco chloroplast DNA replication origin (ori B)downstream of the 23S rRNA gene. J. Mol. Biol. 268: 273-283. PubMed Google Scholar
Lax, A. R., Vaughn, K. C., Duke, S. O. and Endrizzi, J. E. 1987. Structural and physiological studies of a plastome cotton mutant with slow sorting out. J. Hered. 78: 147-152. Google Scholar
Lee, S. B., Kwon, H. B., Kwon, S. J., Park, S. C., Jeong, M. J., Han, S. E., M. O. and Daniell, H. 2003. Accumulation of trehalose within transgenic chloroplasts confers drought tolerance. Mol. Breeding 11: 1-13. Google Scholar
Llewellyn, D. and Fitt, G. 1996. Pollen dispersal from two eld trials of transgenic cotton in the Namoi valley, Australia. Mol. Breeding 2: 157-166. Google Scholar
Lu, Z., Kunnimalaiyaan, M. and Nielsen, B. L. 1996. Characterization of replication origins. anking the 23S rRNA gene in tobacco chloroplast DNA. Plant. Mol. Biol. 32: 693-706. PubMed Google Scholar
Lugo, S. K., Kunnimalaiyaan, M., Singh, N. K. and Nielsen, B. L. 2004. Required sequence elements for chloroplast DNA replication activity in vitro and in electroporated chloroplasts. Plant Science 166: 151-161. Google Scholar
Maliga, P. 2003. Progress towards commercialization of plastid transformation technology. Trends Biotechnol. 21: 20-28. PubMed Google Scholar
Meeker, R., Nielsen, B. and Tewari, K. K. 1988. Localization of replication origins in pea chloroplast DNA. Mol. Cell. Biol. 8: 1216-1223. PubMed Google Scholar
Muhlbauer, S. K., Lossl, A., Tzekova, L., Zou, Z. and Koop, H. U. 2002. Functional analysis of plastid DNA replication origins in tobacco by targeted inactivation. Plant J. 32: 175-184. PubMed Google Scholar
Murashige, T. and Skoog, F. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15: 473-497. Google Scholar
Nielsen, B. L., Lu, Z. and Tewari, K. K. 1993. Characterization of the pea chloroplast DNA ori A region. Plasmid 30: 197-211. PubMed Google Scholar
Reddy, M. K., Choudhury, N. R., Kumar, D., Mukherjee, S. K. and Tewari, K. K. 1994. Characterisation and mode of in vitro replication of pea chloroplast ori A sequences. Eur. J. Biochem. 220: 933-941. PubMed Google Scholar
Reddy, V. S., Leelavathi, S., Selvapandian, A., Raman, R., Ferraiolo, G., Shukla, V. and Bhatnagar, R. K. 2002. Analysis of chloroplast transformed tobacco plants with cry 1Ia5 under rice psbA transcriptional elements reveal high level expression of Bt toxin without imposing yield penalty and stable inheritance of transplastome. Mol. Breeding 9: 259-69. Google Scholar
Ruf, S., Hermann, M., Berger, I., Carrer, H. and Bock, R. 2001. Stable genetic transformation of tomato plastids and ex-pression of a foreign protein in fruit. Nat. Biotechnol. 19: 870-875. PubMed Google Scholar
Ruiz, O. N., Hussein, H., Terry, N. and Daniell, H. 2003. Phytoremediation of organomercurial compounds via chlo-roplast genetic engineering. Plant Physiol. 132: 1344-1352. PubMed Google Scholar
Shen, P. and Huang, H. V. 1986. Homologous recombination in _Escherichia coli_-Dependence on substrate length and homology. Genetics 112: 441-457. PubMed Google Scholar
Sidorov, V. A., Kasten, D., Pang, S. Z., Hajdukiewicz, P. T. J., Staub, J. M. and Nehra, N. S. 1999. Technical advance: stable chloroplast transformation in potato: use of green. uores-cent protein as a plastid marker. Plant J. 19: 209-216. PubMed Google Scholar
Sikdar, S. R., Serino, G., Chaudhuri, S. and Maliga, P. 1998. Plastid transformation in Arabidopsis thaliana. Plant Cell Rep. 18: 20-24. Google Scholar
Silhavy, D. and Maliga, P. (1998). Mapping of promoters for the nucleus encoded plastid RNA polymerase (NEP)in the iojap maize mutant. Curr. Genet. 33: 340-344. PubMed Google Scholar
Skarjinskaia, M., Svab, Z. and Maliga, P. 2003. Plastid transformation in Lesquerella fendleri, an oilseed Brassicacea. Transgenic Res. 12: 115-122. PubMed Google Scholar
Staub, J. M. and Maliga, P. 1995. Expression of a chimeric uidA gene indicates that polycistronic messenger-RNAs are efficiently translated in tobacco plastids. Plant J. 7: 845-848. PubMed Google Scholar
Staub, J. M., Garcia, B., Graves, J., Hajdukiewicz, P. T. J., Hunter, P., Nehra, N., Paradkar, V., Schlittler, M., Carroll, J. A., Spatola, L., Ward, D., Ye, G. N. and Russell, D. A. 2000. High-yield production of a human therapeutic protein in tobacco chloroplasts. Nat. Biotechnol. 18: 333-338. PubMed Google Scholar
Stegemann, S., Hartmann, S., Ruf, S. and Bock, R. 2003. High-frequency gene transfer from the chloroplast genome to the nucleus. Proc. Natl. Acad. Sci. USA 100: 8828-dy8833. Google Scholar
Stern, D. B. and Gruissem, W. 1987. Control of plastid gene expression: 3 ¢inverted repeats act as mRNA processing and stabilizing elements, but do not terminate transcription. Cell 51: 1145-57. PubMed Google Scholar
Trolinder, N. L. and Goodin, J. R. 1988. Somatic embryogenesis in cotton (Gossypium hirsutum )1. E. ects of source of explant and hormone regime. Plant Cell Tiss. Org. Cul. 12: 178-181. Google Scholar
Trolinder, N. L. and Chen, X. X. 1989. Genotype specificity of the somatic embryogenesis in cotton. Plant Cell Rep. 8: 133-136. Google Scholar
Umbeck, P. F., Barton, K. A., Nordheim, E. V., McCarty, J. C., Parrot, W. L. and Jenkins, J. N. 1991. Degree of pollen dispersal by insects from a field test of genetically engineered cotton. J. Econ. Entomol. 84: 1943-1950. Google Scholar