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Construction and iterative redesign of synXVI a 903 kb synthetic Saccharomyces cerevisiae chromosome

Author

Listed:
  • Hugh D. Goold

    (Woodbridge Road
    Macquarie University)

  • Heinrich Kroukamp

    (Macquarie University
    Macquarie Park)

  • Paige E. Erpf

    (Macquarie University)

  • Yu Zhao

    (NYU Langone Health)

  • Philip Kelso

    (Macquarie University)

  • Julie Calame

    (Macquarie University)

  • John J. B. Timmins

    (Macquarie University)

  • Elizabeth L. I. Wightman

    (Macquarie University
    Macquarie Park)

  • Kai Peng

    (Macquarie University)

  • Alexander C. Carpenter

    (Macquarie University
    Unit 1A 2/6 Orion Road, Lane Cove West)

  • Briardo Llorente

    (Macquarie University
    The Australian Genome Foundry)

  • Carmen Hawthorne

    (Macquarie University)

  • Samuel Clay

    (Macquarie University)

  • Niël Wyk

    (Macquarie University
    Hochschule Geisenheim University)

  • Elizabeth L. Daniel

    (Macquarie University)

  • Fergus Harrison

    (Macquarie University)

  • Felix Meier

    (Macquarie University)

  • Robert D. Willows

    (Macquarie University)

  • Yizhi Cai

    (131 Princess Street)

  • Roy S. K. Walker

    (Macquarie University)

  • Xin Xu

    (Macquarie University)

  • Monica I. Espinosa

    (Macquarie University)

  • Giovanni Stracquadanio

    (The University of Edinburgh)

  • Joel S. Bader

    (Johns Hopkins University)

  • Leslie A. Mitchell

    (NYU Langone Health)

  • Jef D. Boeke

    (NYU Langone Health
    NYU Langone Health
    NYU Tandon School of Engineering)

  • Thomas C. Williams

    (Macquarie University
    Unit 1A 2/6 Orion Road, Lane Cove West)

  • Ian T. Paulsen

    (Macquarie University
    The Australian Genome Foundry)

  • Isak S. Pretorius

    (Macquarie University)

Abstract

The Sc2.0 global consortium to design and construct a synthetic genome based on the Saccharomyces cerevisiae genome commenced in 2006, comprising 16 synthetic chromosomes and a new-to-nature tRNA neochromosome. In this paper we describe assembly and debugging of the 902,994-bp synthetic Saccharomyces cerevisiae chromosome synXVI of the Sc2.0 project. Application of the CRISPR D-BUGS protocol identified defective loci, which were modified to improve sporulation and recover wild-type like growth when grown on glycerol as a sole carbon source when grown at 37˚C. LoxPsym sites inserted downstream of dubious open reading frames impacted the 5’ UTR of genes required for optimal growth and were identified as a systematic cause of defective growth. Based on lessons learned from analysis of Sc2.0 defects and synXVI, an in-silico redesign of the synXVI chromosome was performed, which can be used as a blueprint for future synthetic yeast genome designs. The in-silico redesign of synXVI includes reduced PCR tag frequency, modified chunk and megachunk termini, and adjustments to allocation of loxPsym sites and TAA stop codons to dubious ORFs. This redesign provides a roadmap into applications of Sc2.0 strategies in non-yeast organisms.

Suggested Citation

  • Hugh D. Goold & Heinrich Kroukamp & Paige E. Erpf & Yu Zhao & Philip Kelso & Julie Calame & John J. B. Timmins & Elizabeth L. I. Wightman & Kai Peng & Alexander C. Carpenter & Briardo Llorente & Carme, 2025. "Construction and iterative redesign of synXVI a 903 kb synthetic Saccharomyces cerevisiae chromosome," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-024-55318-3
    DOI: 10.1038/s41467-024-55318-3
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