Alcohol dehydrogenase gene ADH3 activates glucose alcoholic fermentation in genetically engineered Dekkera bruxellensis yeast

Schifferdecker, Anna Judith; Šiurkus, Juozas; Andersen, Mikael Rørdam; Joerck-Ramberg, Dorte; Ling, Zhihao; Zhou, Nerve; Blevins, James E.; Sibirny, Andriy А.; Piškur, Jure; Ishchuk, Olena P.

doi:10.1007/s00253-015-7266-x

Cited by 16 publications

(12 citation statements)

References 79 publications

(98 reference statements)

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“…For the ura3 mutant Y997 [32], 50 mg/l uracil was added to the YNB medium. Prototroph transformants of Y997 mutant were selected on the minimal medium YNB.…”

Section: Methodsmentioning

confidence: 99%

Novel Centromeric Loci of the Wine and Beer Yeast Dekkera bruxellensis CEN1 and CEN2

et al. 2016

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The wine and beer yeast Dekkera bruxellensis thrives in environments that are harsh and limiting, especially in concentrations with low oxygen and high ethanol. Its different strains’ chromosomes greatly vary in number (karyotype). This study isolates two novel centromeric loci (CEN1 and CEN2), which support both the yeast’s autonomous replication and the stable maintenance of plasmids. In the sequenced genome of the D. bruxellensis strain CBS 2499, CEN1 and CEN2 are each present in one copy. They differ from the known “point” CEN elements, and their biological activity is retained within ~900–1300 bp DNA segments. CEN1 and CEN2 have features of both “point” and “regional” centromeres: They contain conserved DNA elements, ARSs, short repeats, one tRNA gene, and transposon-like elements within less than 1 kb. Our discovery of a miniature inverted-repeat transposable element (MITE) next to CEN2 is the first report of such transposons in yeast. The transformants carrying circular plasmids with cloned CEN1 and CEN2 undergo a phenotypic switch: They form fluffy colonies and produce three times more biofilm. The introduction of extra copies of CEN1 and CEN2 promotes both genome rearrangements and ploidy shifts, with these effects mediated by homologous recombination (between circular plasmid and genome centromere copy) or by chromosome breakage when integrated. Also, the proximity of the MITE-like transposon to CEN2 could translocate CEN2 within the genome or cause chromosomal breaks, so promoting genome dynamics. With extra copies of CEN1 and CEN2, the yeast’s enhanced capacities to rearrange its genome and to change its gene expression could increase its abilities for exploiting new and demanding niches.

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“…For the ura3 mutant Y997 [32], 50 mg/l uracil was added to the YNB medium. Prototroph transformants of Y997 mutant were selected on the minimal medium YNB.…”

Section: Methodsmentioning

confidence: 99%

Novel Centromeric Loci of the Wine and Beer Yeast Dekkera bruxellensis CEN1 and CEN2

et al. 2016

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“…Very recently, efficient genetic transformation of B. bruxellensis has been developed, with both random genomic insertion and episomal plasmids available for the introduction of heterologous DNA (Miklenić et al, 2015;Schifferdecker et al, 2016). However, as yet there has been no demonstration of gene replacement via homologous recombination in this species.…”

Section: Bretttanomyces Sppmentioning

confidence: 99%

Yeasts found in vineyards and wineries

Varela

Borneman

2016

Yeast

116

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Wine is a complex beverage, comprising thousands of metabolites that are produced through the action of a plethora of yeasts and bacteria during fermentation of grape must. These microbial communities originate in the vineyard and the winery and reflect the influence of several factors including grape variety, geographical location, climate, vineyard spraying, technological practices, processing stage and season (pre-harvest, harvest, post-harvest). Vineyard and winery microbial communities have the potential to participate during fermentation and influence wine flavour and aroma. Therefore, there is an enormous interest in isolating and characterising these communities, particularly non-Saccharomyces yeast species to increase wine flavour diversity, while also exploting regional signature microbial populations to enhance regionality. In this review we describe the role and relevance of the main non-Saccharomyces yeast species found in vineyards and wineries. This includes the latest reports covering the application of these species for winemaking; and the biotechnological characteristics and potential applications of non-Saccharomyces species in other areas. In particular, we focus attention on the species for which molecular and genomic tools and resources are available for study. Copyright © 2016 John Wiley & Sons, Ltd.

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“…Different sugar consumption patterns have been reported, with variations in maltose and maltotriose utilization (Crauwels et al, 2017;Smith and Divol, 2018). Ethanol production is closely linked to sugar utilization, and Brettanomyces has been widely described as a potential bioethanol producer (Blomqvist et al, 2010;Aguilar-Uscanga et al, 2011;Schifferdecker et al, 2016). A unique property of Brettanomyces yeasts is their high β-glucosidase activity, conferring the capability to break beta linked substrates (Daenen et al, 2004(Daenen et al, , 2008b.…”

Section: Introductionmentioning

confidence: 99%

Assessing Population Diversity of Brettanomyces Yeast Species and Identification of Strains for Brewing Applications

et al. 2020

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Alcohol dehydrogenase gene ADH3 activates glucose alcoholic fermentation in genetically engineered Dekkera bruxellensis yeast

Cited by 16 publications

References 79 publications

Novel Centromeric Loci of the Wine and Beer Yeast Dekkera bruxellensis CEN1 and CEN2

Novel Centromeric Loci of the Wine and Beer Yeast Dekkera bruxellensis CEN1 and CEN2

Yeasts found in vineyards and wineries

Assessing Population Diversity of Brettanomyces Yeast Species and Identification of Strains for Brewing Applications

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