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GBSS T-DNA inserts giving partial complementation of the amylose-free potato mutant can also cause co-suppression of the endogenous GBSS gene in a wild-type background

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Abstract

The wild-type gene encoding granule-bound starch synthase (GBSS) is capable of both complementing the amylosefree (amf) potato mutant and inhibiting the endogenous GBSS gene expression in wild-type potato. Co-suppression of the endogenous GBSS gene, easily visualised by staining the starch with iodine, occurred when the full-size GBSS sequence (genomic), GBSS cDNA or even the mutant amf allele were introduced into the wild-type potato. Conversely, introduction of the GBSS promoter sequence alone, did not result in co-suppression in the 80 analysed transformants. Neither the orientation of the GBSS gene with respect to kanamycin resistance nor the presence of an enhancer influenced the frequency of plants showing a co-suppression phenotype. After crossing a partially complemented amf mutant with a homozygous wild-type plant, the F1 offspring segregated into plant phenotypes with normal and decreased expression of the GBSS gene. This decreased expression correlated with the presence of a linked block of five T-DNA inserts which was previously shown to be correlated with partial complementation of the amf mutant. This crossing experiment indicates that co-suppression can cause inhibition of gene expression of both inserted and endogenous wild-type GBSS genes. The frequency of partially complemented amf plants was equal to the frequency of co-suppressed wild types when a construct, with an enhancer in front of the GBSS promoter, was used (pWAM 101E). This might suggest that partial complementation of the amf genotype caused by unstable expression of the transgene can be overcome by inserting an enhancer in front of the GBSS promoter.

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References

  1. Dellaporta SL, Wood J, Hicks JB: A plant DNA minipreparation: version II. Plant Mol Biol Rep 1: 19–21 (1983).

    Google Scholar 

  2. Flipse E, Huisman JG, deVries BJ, Bergervoet JEM, Jacobsen E, Visser RGF: Expression of a wild-type GBSS gene introduced into an amylose-free potato mutant by Agrobacterium tumefaciens and the inheritance at the microsporic level. Theor Appl Genet 88: 369–375 (1994).

    Google Scholar 

  3. Flipse E, Schippers MGM, Janssen EM, Jacobsen E, Visser RGF: Expression of wild-type GBSS transgenes in the offspring of partially and fully complementented Amylose-free transformants of potato. Mol Breed, in press (1996).

  4. Frandsen NO: Die Plastidenzahl als Merkmal bei der Kartoffel, Theor Appl Genet 38: 153–167 (1968).

    Google Scholar 

  5. Grierson D, Fray RG, Hamilton AJ, Smith CJS, Watson CF: Does co-suppression of sense genes in transgenic plants involve antisense RNA. Trends Biotechnol 9: 122–123 (1991).

    Google Scholar 

  6. Hobbs SLA, Kpodar P, Delong CMO: The effect of the T-DNA copy number, position and methylation on reporter gene expression in tobacco transformants. Plant Mol Biol 15: 851–864 (1990).

    Google Scholar 

  7. Höfgen R, Willmitzer L: Storage of competent cells for Agrobacterium transformation. Nucl Acids Res 16: 9877 (1988).

    Google Scholar 

  8. Holmes DS, Quigley M: A rapid boiling method for the preparation of bacterial plasmids. Anal Biochem 114: 193–201 (1981).

    Google Scholar 

  9. Hovenkamp-Hermelink JHM, Jacobsen E, Ponstein AS, Visser RGF, Vos-Scheperkeuter GH, Bijholt EW, deVries JN, Witholt B, Feenstra WJ: Isolation of an amylose-free starch mutant of the potato (Solanum tuberosum L.). Theor Appl Genet 75: 217–221 (1987).

    Google Scholar 

  10. Hovenkamp-Hermelink JHM, deVries JN, Adamse P, Jacobsen E, Witholt B, Feenstra WJ: Rapid estimation of the amyl ose/amylopectin ratio in small amounts of tuber and leaf tissue of the potato. Potato Res 31: 241–246 (1988).

    Google Scholar 

  11. Jacobsen E, Hovenkamp-Hermelink JHM, Krijgsveld HT, Nijdam H, Pijnacker LP, Witholt B, Feenstra WJ: Phenotypic and genotypic characterisation of an amylose-free starch mutant of the potato. Euphytica 44: 43–48 (1989).

    Google Scholar 

  12. Jane J, Su A, Radosavlejic M, Seib PA: Location of amylose in normal starch granules. Susceptibility of amylose and amylopectin to cross-linking reagents. Cereal Chem 69: 405–409 (1992).

    Google Scholar 

  13. Jorgensen R: Altered gene expression in plants due to trans interactions between homologous genes. Trends Biotechnol 8: 340–344 (1990).

    Google Scholar 

  14. van derKrol AR, Mur LA, Beld M, Mol JNM, Stuitje AR: Flavonoid genes in petunia: addition of a limited number of gene copies may lead to a suppression of gene expression. Plant Cell 2: 291–299 (1990).

    Google Scholar 

  15. Kuipers GJ, Vreem JTM, Meyer H, Jacobsen E, Feenstra WJ, Visser RGF: Field evaluation of anti-sense RNA mediated inhibition of GBSS gene expression in potato. Euphytica 59: 83–91 (1991).

    Google Scholar 

  16. Kuipers GJ, Jacobsen E, Visser RGF: Formation and deposition of amylose in the potato tuber starch granule are affected by the reduction of granule bound starch synthase gene expression Plant Cell 6: 43–52 (1994).

    Google Scholar 

  17. Kuipers GJ, Soppe WJ, Jacobsen E, Visser RGF: Factors affecting the inhibition by antisense RNA of granule-bound starch synthase gene expression in potato. Mol Gen Genet 246: 745–755 (1995).

    Google Scholar 

  18. van derLeij FR, Visser RGF, Oosterhaven K, van derKop DAM, Jacobsen E, Feenstra WJ: Complementation of the amylose-free starch mutant of potato (Solanum tuberosum) by the gene encoding granule-bound starch synthase. Theor Appl Genet 82: 289–295 (1991).

    Google Scholar 

  19. van derLeij FR, Visser RGF, Ponstein AS, Jacobsen E, Feenstra WJ: Sequence of the structural gene for granule-bound starch synthase of potato (Solanum tuberosum L.) and evidence for a single point deletion in the amf-allele. Mol Gen Genet 228: 240–248 (1991).

    Google Scholar 

  20. Linn F, Heidmann I, Saedler H, Meyer P: Epigenetic changes in the expression of the maize A1 gene in Petunia hybrida: role of numbers of integrated gene copies and state of methylation. Mol Gen Genet 222: 329–336 (1990).

    Google Scholar 

  21. Matzke MA, Priming M, Trovsky J, Matzke AJM: Reversible methylation and inactivation of marker genes in sequentially transformed tobacco plants. EMBO J 8: 643–649 (1989).

    Google Scholar 

  22. Matzke MA, Neuhuber F, Matzke AJM: A variety of epistatic interactions can occur between partially homologous transgene loci brought together by sexual crossing. Mol Gen Genet 236: 379–386 (1993).

    Google Scholar 

  23. Matzke MA, Matzke AJM, Scheid OM: Inactivation of repeated genes. DNA-DNA interaction? In: Paszkowski J (ed) Homologous Recombination and Gene Silencing in Plants, pp. 271–307. Kluwer Academic Publishers. Dordrecht, Netherlands (1994).

    Google Scholar 

  24. Mol JNM, vanBlokland R, deLange P, Stam M, Kooter JM: Post-transcriptional inhibition of gene expression: sense and antisense genes. In: Paszkowski J (ed) Homologous Recombination and Gene Silencing in Plants. pp. 304–334. Kluwer Academic Publishers, Dordrecht, Netherlands (1994).

    Google Scholar 

  25. Murashige T, Skoog F: A revised medium for the rapid growth and bioassay with tobacco tissue cultures. Physiol Plant 15: 473–497 (1962).

    Google Scholar 

  26. Napoli C, Lemieux C, Jorgensen R: Introduction of a chimeric chalcone synthase gene into petunia results in reversible co-suppression of homologous genes in trans. Plant Cell 2: 279–289 (1990).

    Google Scholar 

  27. Neal CA, Topolewski LD: Effects of the basal medium on growth of immature embryos in vitro. J Am Soc Hort Sci 108: 434–438 (1983).

    Google Scholar 

  28. Neal CA, Topolewski LD: Hormonal regulation of growth and development of tomato embryos in vitro. J Am Soc Hort Sci 110: 869–873 (1985).

    Google Scholar 

  29. Salehuzzaman SNIM, Jacobsen E, Visser RGF: Cloning, partial sequencing and expression of a cDNA coding for branching enzyme in cassava. Plant Mol Biol 20: 809–819 (1992).

    Google Scholar 

  30. Shannon JC, Garwood DL: Genetics and physiology of starch development. In: Whistler RL, BeMiller JN, Paschall EF (eds) Starch: Chemistry and Technology, 2nd ed., pp. 25–86. Academic Press, Orlando, FL (1984).

    Google Scholar 

  31. Smith CJS, Watson CF, Morris PC, Bird CR,Seymour GB, Gray JE, Arnold C, Tucker GA, Schuch W, Harding S, Grierson D: Interitance and effect on ripening of antisense polygalacturonase genes in transgenic tomatoes. Plant Mol Biol 14: 369–379 (1990).

    Google Scholar 

  32. Visser RGF, Hergersberg M, Leij van der FR, Jacobsen E, Witholt B, Feenstra WJ: Molecular Cloning and partial characterization of the gene for granule-bound starch synthase from a wild-type and an amylose-free potato (Solanum tuberosum). Plant Sci 64: 185–192 (1989).

    Google Scholar 

  33. Visser RGF, Hesseling-Meinders A, Jacobsen E, Nijdam H, Witholt B, Feenstra WJ: Expression and inheritance of inserted markers in binary vector carrying Agrobacterium rhizogenes transformed potato (Solanum tuberosum L.). Theor Appl Genet 78: 705–714 (1989).

    Google Scholar 

  34. Visser RGF, Stolte A, Jacobsen: Expression of a chimeric granule-bound starch synthase-GUS gene in transgenic potato plants. Plant Mol Biol 17: 691–699 (1989).

    Google Scholar 

  35. Visser RGF, Somhorst I, Kuipers GJ, Ruys NJ, Feenstra WJ, Jacobsen E: Inhibition of expression of the gene for granulebound starch synthase in potato by antisense constructs. Mol Gen Genet 25: 289–296 (1991).

    Google Scholar 

  36. Vos-Scheperkeuter GH, deBoer W, Visser RGF, Feenstra WJ, Witholt B: Identification of granule bound starch synthase in potato tubers. Plant Physiol 82: 411–416 (1986).

    Google Scholar 

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Authors and Affiliations

  1. Graduate School of Experimental Plant Sciences, Department of Plant breeding, Agricultural University, P.O. Box 386, 6700AJ, Wageningen, Netherlands

    Elise Flipse, Irma Straatman-Engelen, Anja G. J. Kuipers, Evert Jacobsen & Richard G. F. Visser

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  1. Elise Flipse
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  2. Irma Straatman-Engelen
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  3. Anja G. J. Kuipers
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  4. Evert Jacobsen
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  5. Richard G. F. Visser
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Flipse, E., Straatman-Engelen, I., Kuipers, A.G.J. et al. GBSS T-DNA inserts giving partial complementation of the amylose-free potato mutant can also cause co-suppression of the endogenous GBSS gene in a wild-type background. Plant Mol Biol 31, 731–739 (1996). https://doi.org/10.1007/BF00019461

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  • DOI: https://doi.org/10.1007/BF00019461

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