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Evolved S. cerevisiae population sequencing

Identifiers: SRA: SRP286889
BioProject: PRJNA668346
Study Type: 
Other
Abstract: This project contains sequencing data from 90 focal populations at 6 timepoints during an evolution experiment. Abstract: "Laboratory experimental evolution provides a window into the details of the evolutionary process. To investigate the consequences of long-term adaptation, we evolved 205 S. cerevisiae populations (124 haploid and 81 diploid) for ~10,000 generations in three environments. We measured the dynamics of fitness changes over time, finding repeatable patterns of declining adaptability. Sequencing revealed that this phenotypic adaptation is coupled with a steady accumulation of mutations, widespread genetic parallelism, and historical contingency. In contrast to long-term evolution in E. coli, we do not observe long-term coexistence or populations with highly elevated mutation rates. We find that evolution in diploid populations involves both fixation of heterozygous mutations and frequent loss-of-heterozygosity events. Together, these results help distinguish aspects of evolutionary dynamics that are likely to be general features of adaptation across many systems from those that are specific to individual organisms and environmental conditions. "

Related SRA data

Experiments:
539 ( 539 samples )
Runs:
539 (279.3Gbp; 101.3Gb)
Additional objects:
File type count
fastq 1618