AI Article Synopsis
- - Accessing the genetic diversity of species uncovers hidden traits and helps clarify gene functions, especially in natural isolates of Saccharomyces cerevisiae, where around 20% exhibit aneuploidy, which is contradicted by laboratory findings showing its fitness costs.
- - The research generates a proteomic resource for 796 euploid and aneuploid isolates, revealing that natural aneuploids have better protein dosage compensation compared to lab-generated ones, where many protein subunits show reduced expression.
- - Findings indicate that natural aneuploidy involves enhanced protein turnover and structural changes in the proteasome, suggesting that studying natural genetic diversity can provide valuable insights into the biological mechanisms behind aneupl
Article Abstract
Accessing the natural genetic diversity of species unveils hidden genetic traits, clarifies gene functions and allows the generalizability of laboratory findings to be assessed. One notable discovery made in natural isolates of Saccharomyces cerevisiae is that aneuploidy-an imbalance in chromosome copy numbers-is frequent (around 20%), which seems to contradict the substantial fitness costs and transient nature of aneuploidy when it is engineered in the laboratory. Here we generate a proteomic resource and merge it with genomic and transcriptomic data for 796 euploid and aneuploid natural isolates. We find that natural and lab-generated aneuploids differ specifically at the proteome. In lab-generated aneuploids, some proteins-especially subunits of protein complexes-show reduced expression, but the overall protein levels correspond to the aneuploid gene dosage. By contrast, in natural isolates, more than 70% of proteins encoded on aneuploid chromosomes are dosage compensated, and average protein levels are shifted towards the euploid state chromosome-wide. At the molecular level, we detect an induction of structural components of the proteasome, increased levels of ubiquitination, and reveal an interdependency of protein turnover rates and attenuation. Our study thus highlights the role of protein turnover in mediating aneuploidy tolerance, and shows the utility of exploiting the natural diversity of species to attain generalizable molecular insights into complex biological processes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11153158 | PMC |
| http://dx.doi.org/10.1038/s41586-024-07442-9 | DOI Listing |
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