Precision breeding for novel starch variants in potato

  1. Jost Muth1,
  2. Stefanie Hartje2,
  3. Richard M. Twyman3,
  4. Hans-Reinhard Hofferbert4,
  5. Eckhard Tacke2,
  6. Dirk Prüfer5,*

Article first published online: 14 APR 2008

DOI: 10.1111/j.1467-7652.2008.00340.x

Issue

Plant Biotechnology Journal

Plant Biotechnology Journal

Volume 6, Issue 6, pages 576–584, August 2008

Additional Information

How to Cite

Muth, J., Hartje, S., Twyman, R. M., Hofferbert, H.-R., Tacke, E. and Prüfer, D. (2008), Precision breeding for novel starch variants in potato. Plant Biotechnology Journal, 6: 576–584. doi: 10.1111/j.1467-7652.2008.00340.x

Author Information

  1. 1

    Fraunhofer Institute for Molecular Biology and Applied Ecology, Forckenbeckstrasse 6, 52074 Aachen, Germany

  2. 2

    BIOPLANT, Biotechnologisches Forschungslabor GmbH, Brueggerfeld 44, 29574 Ebstorf, Germany

  3. 3

    Department of Biology, University of York, Heslington, York YO10 5DD, UK

  4. 4

    Böhm-Nordkartoffel Agrarproduktion OHG, Bahnhofstrasse 53, 29574 Ebstorf, Germany

  5. 5

    Westphalian Wilhelms-University of Münster, Institute for Biochemistry and Biotechnology of Plants, 48143 Münster, Germany

* * Correspondence (fax +492518328371; e-mail dpruefer@uni-muenster.de)

Publication History

  1. Issue published online: 11 JUL 2008
  2. Article first published online: 14 APR 2008
  3. Received 8 January 2008; revised 28 February 2008; accepted 5 March 2008.

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Keywords:

  • ethylmethanesulphonate mutagenesis;
  • high-amylopectin starch;
  • Solanum tuberosum

Summary

Potato can be used as a source of modified starches for culinary and industrial processes, but its allelic diversity and tetraploid genome make the identification of novel alleles a challenge, and breeding such alleles into elite lines is a slow and difficult process. An efficient and reliable strategy has been developed for the rapid introduction and identification of new alleles in elite potato breeding lines, based on the ethylmethanesulphonate mutagenesis of dihaploid seeds. Using the granule-bound starch synthase I gene (waxy) as a model, a series of point mutations that potentially affect gene expression or enzyme function was identified. The most promising loss-of-function allele (waxyE1100) carried a mutation in the 5′-splice donor site of intron 1 that caused mis-splicing and protein truncation. This was used to establish elite breeding lineages lacking granule-bound starch synthase I protein activity and producing high-amylopectin starch. This is the first report of rapid and efficient mutation analysis in potato, a genetically complex and vegetatively propagated crop.

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