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Neofunctionalisation of the Sli gene leads to self-compatibility and facilitates precision breeding in potato

Author

Listed:
  • Ernst-Jan Eggers

    (Solynta, Dreijenlaan
    Wageningen University & Research)

  • Ate Burgt

    (Solynta, Dreijenlaan)

  • Sjaak A. W. Heusden

    (Wageningen University & Research)

  • Michiel E. Vries

    (Solynta, Dreijenlaan)

  • Richard G. F. Visser

    (Wageningen University & Research)

  • Christian W. B. Bachem

    (Wageningen University & Research)

  • Pim Lindhout

    (Solynta, Dreijenlaan)

Abstract

Genetic gain in potato is hampered by the heterozygous tetraploid genome of cultivated potato. Converting potato into a diploid inbred-line based F1-hybrid crop provides a promising route towards increased genetic gain. The introduction of a dominant S-locus inhibitor (Sli) gene into diploid potato germplasm allows efficient generation of self-fertilized seeds and thus the development of potato inbred lines. Little is known about the structure and function of the Sli locus. Here we describe the mapping of Sli to a 12.6 kb interval on chromosome 12 using a recombinant screen approach. One of two candidate genes present in this interval shows a unique sequence that is exclusively present in self-compatible lines. We describe an expression vector that converts self-incompatible genotypes into self-compatible and a CRISPR-Cas9 vector that converts SC genotypes into SI. The Sli gene encodes an F-box protein that is specifically expressed in pollen from self-compatible plants. A 533 bp insertion in the promotor of that gene leads to a gain of function mutation, which overcomes self-pollen rejection.

Suggested Citation

  • Ernst-Jan Eggers & Ate Burgt & Sjaak A. W. Heusden & Michiel E. Vries & Richard G. F. Visser & Christian W. B. Bachem & Pim Lindhout, 2021. "Neofunctionalisation of the Sli gene leads to self-compatibility and facilitates precision breeding in potato," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24267-6
    DOI: 10.1038/s41467-021-24267-6
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    Cited by:

    1. Dawei Li & Zedong Geng & Shixuan Xia & Hui Feng & Xiuhan Jiang & Hui Du & Pei Wang & Qun Lian & Yanhui Zhu & Yuxin Jia & Yao Zhou & Yaoyao Wu & Chenglong Huang & Guangtao Zhu & Yi Shang & Huihui Li & , 2024. "Integrative multi-omics analysis reveals genetic and heterotic contributions to male fertility and yield in potato," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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