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Data from: Yeast adapts to a changing stressful environment by evolving cross-protection and anticipatory gene regulation.
负责人:
关键词:
Yeast stress adaptation;expression analysis;anticipation;Saccharomyces cerevisiae;cross-protection
DOI:
doi:10.5061/dryad.q0158
摘要:
out laboratory evolution experiments in the yeast Saccharomyces cerevisiae. Specifically, we exposed three replicate populations of yeast to environments that varied
Data from: Live-cell single particle imaging reveals the role of RNA polymerase II in histone H2A.Z eviction
负责人:
关键词:
Baltimore;Single molecule imaging;Saccharomyces cerevisiae
DOI:
doi:10.5061/dryad.43cp80c
摘要:
is deposited by the SWR1 chromatin remodeler and evicted by unclear mechanisms. We tracked H2A.Z in living yeast at single-molecule resolution, and found tha
Data from: Generic indicators for loss of resilience before a tipping point leading to population collapse
负责人:
关键词:
DOI:
doi:10.5061/dryad.p2481134
摘要:
recovery from small perturbations, a phenomenon called critical slowing down. We used replicate laboratory populations of the budding yeast Saccharomyces cerevisiae
Data from: Adaptation of Saccharomyces cerevisiae to saline stress through laboratory evolution.
负责人:
关键词:
Experimental evolution;Yeast stress adaptation;genomics;Adaptation;next generation 454 sequencing;single-nucleotide polymorphism;Saccharomyces cerevisiae;gene expression;ploidy
DOI:
doi:10.5061/dryad.gf07m
摘要:
. The yeast Saccharomyces cerevisiae is a good model system to study salt stress tolerance, because it contains several highly conserved pathways that mediate the salt stress response
Data from: Quantitative proteomic analysis reveals posttranslational responses to aneuploidy in yeast
负责人:
关键词:
proteomics;aneuploidy;Saccharomyces cerevisiae
DOI:
doi:10.5061/dryad.65364
摘要:
es affected by aneuploidy are not well characterized. Here, we examined the consequences of aneuploidy on the proteome of aneuploid budding yeast strains
Data from: Essential gene disruptions reveal complex relationships between phenotypic robustness, pleiotropy, and fitness
负责人:
关键词:
Heterogeneity;pleiotropy;Yeast;Robustness;CalMorph;Saccharomyces cerevisiae;Fitness
DOI:
doi:10.5061/dryad.ft7dj
摘要:
gene deletions in model organisms; however, the most important genes cannot be deleted. Here, we have utilized two systems in yeast whereby essential genes have been altered
Data from: Ribosome profiling reveals pervasive and regulated stop codon readthrough in Drosophila melanogaster
负责人:
关键词:
translation;Ribosome;Stop codon;Homo Sapiens;Readthrough;drosophila melanogaster;Saccharomyces cerevisiae;Ribosome profiling
DOI:
doi:10.5061/dryad.6nr73
摘要:
t readthrough occurs in yeast and humans. Readthrough thus provides general mechanisms both to regulate gene expression and function, and to add plast
Data from: Pioneer cells established by the [SWI+] prion can promote dispersal and out-crossing in yeast
负责人:
关键词:
Migration;Prion;Dispersal;out-crossing;pioneer;Saccharomyces cerevisiae;Yeast;SWI+
DOI:
doi:10.5061/dryad.d5r16
摘要:
with a “pioneer” phenotypic program in Saccharomyces cerevisiae. Cells in the pioneer state readily disperse in water, enabling them to migrate and colonize ne
Data from: Too much of a good thing: The unique and repeated paths toward copper adaptation
负责人:
关键词:
copper tolerance;Fitness;genetic basis of adaptation;aneuploidy;CUP1;Saccharomyces cerevisiae;parallel adaptation;Yeast
DOI:
doi:10.5061/dryad.5gp25
摘要:
, and iron uptake. Yet too much of a good thing can be lethal, and yeast cells typically do not have tolerance to copper levels much beyond the concentration in thei

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