Literature DB >> 27956602

Pathway swapping: Toward modular engineering of essential cellular processes.

Niels G A Kuijpers1, Daniel Solis-Escalante1, Marijke A H Luttik1, Markus M M Bisschops1, Francine J Boonekamp1, Marcel van den Broek1, Jack T Pronk1, Jean-Marc Daran1, Pascale Daran-Lapujade2.   

Abstract

Recent developments in synthetic biology enable one-step implementation of entire metabolic pathways in industrial microorganisms. A similarly radical remodelling of central metabolism could greatly accelerate fundamental and applied research, but is impeded by the mosaic organization of microbial genomes. To eliminate this limitation, we propose and explore the concept of "pathway swapping," using yeast glycolysis as the experimental model. Construction of a "single-locus glycolysis" Saccharomyces cerevisiae platform enabled quick and easy replacement of this yeast's entire complement of 26 glycolytic isoenzymes by any alternative, functional glycolytic pathway configuration. The potential of this approach was demonstrated by the construction and characterization of S. cerevisiae strains whose growth depended on two nonnative glycolytic pathways: a complete glycolysis from the related yeast Saccharomyces kudriavzevii and a mosaic glycolysis consisting of yeast and human enzymes. This work demonstrates the feasibility and potential of modular, combinatorial approaches to engineering and analysis of core cellular processes.

Entities:  

Keywords:  Saccharomyces cerevisiae; glycolysis; modular genomes; pathway swapping

Mesh:

Substances:

Year:  2016        PMID: 27956602      PMCID: PMC5206561          DOI: 10.1073/pnas.1606701113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  45 in total

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Journal:  Gene       Date:  2000-03-21       Impact factor: 3.688

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Review 8.  Efforts to make and apply humanized yeast.

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Review 6.  Genetic Engineering and Synthetic Genomics in Yeast to Understand Life and Boost Biotechnology.

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7.  Selection of Pof-Saccharomyces eubayanus Variants for the Construction of S. cerevisiae × S. eubayanus Hybrids With Reduced 4-Vinyl Guaiacol Formation.

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  10 in total

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