cerevisiae yeast strain capable of selectively overproducing ... Our team has used multiple strategies on the model ...

The completion of chromosome synXVI allows scientists to explore new possibilities in metabolic engineering and strain optimization.

This engineered genome will help experts tailor organisms to fit the needs of their ever-changing environments.

Vinces and colleagues found that as many as 25% of promoters in the sequenced Saccharomyces cerevisiae strain S288C contain one or more TR, and that many promoter TRs have variable numbers of ...

This study details the design and optimization of synXVI, a synthetic yeast chromosome, overcoming growth challenges through ...

A study released today digs into the genetic history of brewer's yeast, Saccharomyces cerevisiae ... Scientists sequenced and compared ale yeast strains with hundreds of yeast genomes from ...

Scientists have completed construction of the final chromosome in the worlds' first synthetic yeast genome following more than a decade of work, opening new possibilities for creating resilient, ...

Using fermentation, University of Alberta researchers have come up with a way to produce higher amounts of a healthy fatty acid found mainly in pomegranates. The paper is published in the Journal of ...

These changes restored the strain’s ability to grow on glycerol ... and iterative redesign of synXVI a 903 kb synthetic Saccharomyces cerevisiae chromosome’ was published in Nature ...

Most of the meiosis research in the lab uses the yeast Saccharomyces cerevisiae and the mouse. Finally, our studies of Spo11 have also provided an entry point to research on the DSBs made by the ...

Two novel bacillus strains launched to enhance the microbiome, improving immune response and gut barrier function.