Non-conventional yeasts are increasingly applied in fermented beverage industry to obtain distinctive products with improved quality. Among these yeasts, Lachancea thermotolerans has multiple features of industrial relevance, especially the production of l(+)-lactic acid (LA), useful for the biological acidification of wine and beer. Since few information is available on this peculiar activity, the current study aimed to explore the physiological and genetic variability among L. thermotolerans strains. From a strain collection, mostly isolated from wine, a huge phenotypic diversity was acknowledged and allowed the selection of a high (SOL13) and a low (COLC27) LA producer. Comparative whole-genome sequencing of these two selected strains and the type strain CBS 6340 showed a high similarity in terms of gene content and functional annotation. Notwithstanding, target gene-based analysis revealed variations between high and low producers in the key gene sequences related to LA accumulation. More in-depth investigation of the core promoters and expression analysis of the genes ldh, encoding lactate dehydrogenase, indicated the transcriptional regulation may be the principal cause behind phenotypic differences. These findings highlighted the usefulness of whole-genome sequencing coupled with expression analysis. They provided crucial genetic insights for a deeper investigation of the intraspecific variability in LA production pathway.
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Article Synopsis
- L-asparaginases are enzymes that convert L-asparagine into L-aspartic acid and ammonia, and they are important in the pharmaceutical industry, particularly for cancer treatments.
- Scientists are exploring yeast-derived L-asparaginases as an alternative to bacterial ones, which can cause adverse immune responses.
- The study focuses on a specific yeast enzyme, Lachancea thermotolerans, demonstrating that a mutant form of this enzyme shows increased activity and significant antileukemic potential compared to commercial bacterial versions.
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