2004. Genome evolution in yeasts. Nature 430:35-44.Dujon B, Sherman D, Fischer G, Durrens P, Casaregola S, Lafontaine I, De Montigny J, Marck C, Neuveglise C, Talla E, Goffard N, Frangeul L, Aigle M, Anthouard V, Babour A, Barbe V, Barnay S, Blanchin S, Beckerich J-M, ...
Genome evolution: Lessons from GenolevuresIn the past years, yeast genome-sequencing programs have been widely developed. Two of them, namely Genolevures I and II, were devoted to the exploration of hemiascomycetous yeasts. The first one covered 13 species with partial random sequencing (0.2-...
S, Richard GF, Straub ML, Suleau A, Swennen D, Tekaia F, Wsolowski-Louvel M, Westhof E, Wirth B, Zeniou-Meyer M, Zivanovic I, Bolotin-Fukuhara M, Thierry A, Bouchier C, Caudron B, Scarpelli C, Gaillardin C, Weissenbach J, Wincker P, Souciet JL: Genome evolution in yeasts. ...
Evolution of Metabolic Traits across Budding Yeasts To examine the evolution of budding yeast metabolism, we used Bayesian inference to estimate rates of gain and loss for a compilation of 45 discrete metabolic traits in 274/332 budding yeasts across the subphylum (Kurtzman et al., 2011, Opulent...
Lin, The origin and evolution of a distinct mechanism of transcription initiation in yeasts. Genome Res, 2021. 31(1): p. 1-13. 8. Zhang, Y., et al., GE23077 binds to the RNA polymerase 'i' and 'i+1' sites and prevents the binding of initiating nucleotides. eLife, 2014. 3: p...
(TEF1)strain to that of the ∆HTL strain revealed that the constitutive expression ofCAS9inC. glabratadelays its average generation time by a factor of 3.5 (323.6 minvs91.2 min;p < 0.0001) (Supplementary Fig. S3). In yeasts, a longer generation time and loss of fitness can be ...
Hemiascomycetous yeastsMolecular evolutionRegionsChromosomesExplorationGene redundancy has been observed in yeast, plant and human genomes, and is thought to be a consequence of whole-genome duplications. Baker's yeast, Saccharomyces cerevisiae, contains several hundred duplicated genes. Duplication(s) ...
cerevisiae. Such striking contrasts between wild and domesticated yeasts are likely to reflect the influence of human activities on structural genome evolution.Similar content being viewed by others Telomere-to-telomere assemblies of 142 strains characterize the genome structural landscape in Saccharomyces ...
In eukaryotes, ABC transporters that utilize the energy of ATP hydrolysis to expel cellular substrates into the environment are responsible for most of the efflux from cells. Many members of the superfamily of ABC transporters have been linked with resis
(UAS) are prevalent in yeasts and also can function as enhancers in human cells [29]. The plants have also evolved transcriptional enhancers [30], even as the ancestors of plants and animals diverged very early in eukaryotic evolution nearly two billion years ago [31,32]. Moreover, micro...