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Synthetic hybrids of six yeast species

Author

Listed:
  • David Peris

    (University of Wisconsin-Madison
    University of Wisconsin-Madison
    Institute of Agrochemistry and Food Technology (IATA), CSIC)

  • William G. Alexander

    (University of Wisconsin-Madison
    University of Wisconsin-Madison
    Truman State University)

  • Kaitlin J. Fisher

    (University of Wisconsin-Madison)

  • Ryan V. Moriarty

    (University of Wisconsin-Madison
    University of Wisconsin-Madison)

  • Mira G. Basuino

    (Truman State University)

  • Emily J. Ubbelohde

    (Truman State University)

  • Russell L. Wrobel

    (University of Wisconsin-Madison
    University of Wisconsin-Madison)

  • Chris Todd Hittinger

    (University of Wisconsin-Madison
    University of Wisconsin-Madison)

Abstract

Allopolyploidy generates diversity by increasing the number of copies and sources of chromosomes. Many of the best-known evolutionary radiations, crops, and industrial organisms are ancient or recent allopolyploids. Allopolyploidy promotes differentiation and facilitates adaptation to new environments, but the tools to test its limits are lacking. Here we develop an iterative method of Hybrid Production (iHyPr) to combine the genomes of multiple budding yeast species, generating Saccharomyces allopolyploids of at least six species. When making synthetic hybrids, chromosomal instability and cell size increase dramatically as additional copies of the genome are added. The six-species hybrids initially grow slowly, but they rapidly regain fitness and adapt, even as they retain traits from multiple species. These new synthetic yeast hybrids and the iHyPr method have potential applications for the study of polyploidy, genome stability, chromosome segregation, and bioenergy.

Suggested Citation

  • David Peris & William G. Alexander & Kaitlin J. Fisher & Ryan V. Moriarty & Mira G. Basuino & Emily J. Ubbelohde & Russell L. Wrobel & Chris Todd Hittinger, 2020. "Synthetic hybrids of six yeast species," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15559-4
    DOI: 10.1038/s41467-020-15559-4
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    Cited by:

    1. Li Cheng & Shijun Zhao & Tianyi Li & Sha Hou & Zhouqing Luo & Jinsheng Xu & Wenfei Yu & Shuangying Jiang & Marco Monti & Daniel Schindler & Weimin Zhang & Chunhui Hou & Yingxin Ma & Yizhi Cai & Jef D., 2024. "Large-scale genomic rearrangements boost SCRaMbLE in Saccharomyces cerevisiae," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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