<p>Brazzein is a heat-stable sweet protein with strong potential as a sugar alternative. Here, we leveraged precision fermentation to produce high titers of recombinant brazzein in the yeast <i>Komagataella phaffii</i>. As the brazzein expression cassette included a zeocin resistance marker, we investigated whether high zeocin resistance could serve as a predictive indicator of high brazzein production. A microscale screen across 100–1000&#xa0;µg&#xa0;mL<sup>−1</sup> zeocin rapidly identified clones with varying resistance, including the high-resistant Braz_3, which produced 4.5-fold more brazzein than the moderate-resistant Braz_7 in fed-batch bioreactors (61.5 vs. 13.7&#xa0;mg L<sup>−1</sup>). Long-read genome sequencing revealed that five copies of the expression cassette were integrated into the genome of the high-producing strain compared to a single copy in the moderate-producing strain. Consequently, our results suggest a positive correlation between zeocin resistance and brazzein titers, demonstrating that antibiotic resistance phenotyping can guide strain selection for scalable production of functional food proteins.</p>

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Engineering sweetness: zeocin-based strain screening to identify high-titer Komagataella phaffii clones for brazzein precision fermentation

  • Jonas Ravn,
  • Vijayendran Raghavendran,
  • Cecilia Geijer

摘要

Brazzein is a heat-stable sweet protein with strong potential as a sugar alternative. Here, we leveraged precision fermentation to produce high titers of recombinant brazzein in the yeast Komagataella phaffii. As the brazzein expression cassette included a zeocin resistance marker, we investigated whether high zeocin resistance could serve as a predictive indicator of high brazzein production. A microscale screen across 100–1000 µg mL−1 zeocin rapidly identified clones with varying resistance, including the high-resistant Braz_3, which produced 4.5-fold more brazzein than the moderate-resistant Braz_7 in fed-batch bioreactors (61.5 vs. 13.7 mg L−1). Long-read genome sequencing revealed that five copies of the expression cassette were integrated into the genome of the high-producing strain compared to a single copy in the moderate-producing strain. Consequently, our results suggest a positive correlation between zeocin resistance and brazzein titers, demonstrating that antibiotic resistance phenotyping can guide strain selection for scalable production of functional food proteins.