scholarly article | Q13442814 |
P50 | author | Rike B Stelkens | Q91656403 |
Ciaran Gilchrist | Q92751957 | ||
P2860 | cites work | Advances in Cryptococcus genomics: insights into the evolution of pathogenesis. | Q51784265 |
Haplotype selection as an adaptive mechanism in the protozoan pathogen Leishmania donovani. | Q54321263 | ||
Leishmania naiffi and Leishmania guyanensis reference genomes highlight genome structure and gene evolution in the Viannia subgenus. | Q55002022 | ||
Adaptive genome duplication affects patterns of molecular evolution in Saccharomyces cerevisiae. | Q55339992 | ||
Genome evolution across 1,011 Saccharomyces cerevisiae isolates | Q57721961 | ||
Genetically different wine yeasts isolated from Austrian vine-growing regions influence wine aroma differently and contain putative hybrids betweenSaccharomyces cerevisiaeandSaccharomyces kudriavzevii | Q58637149 | ||
Spore-autonomous fluorescent protein expression identifies meiotic chromosome mis-segregation as the principal cause of hybrid sterility in yeast | Q59810709 | ||
Single-cell copy number variant detection reveals the dynamics and diversity of adaptation | Q60301258 | ||
The origin and adaptive evolution of domesticated populations of yeast from Far East Asia | Q61136820 | ||
Quantitative phenotypic analysis of multistress response inZygosaccharomyces rouxiicomplex | Q61412193 | ||
Telomeric gene deletion and intrachromosomal amplification in antimony-resistant Leishmania | Q61531220 | ||
The genome-wide rate and spectrum of spontaneous mutations differ between haploid and diploid yeast | Q63379824 | ||
Aneuploidy and Ethanol Tolerance in | Q64253869 | ||
Natural hybrids from Saccharomyces cerevisiae, Saccharomyces bayanus and Saccharomyces kudriavzevii in wine fermentations | Q79420001 | ||
Rapid Phenotypic and Genotypic Diversification After Exposure to the Oral Host Niche in Candida albicans | Q88561757 | ||
Detecting the True Extent of Introgression during Anthropogenic Hybridization | Q91096940 | ||
Population genomics of domestic and wild yeasts | Q22122208 | ||
Lateral gene transfer and the nature of bacterial innovation | Q22122396 | ||
Reconstruction of the genome origins and evolution of the hybrid lager yeast Saccharomyces pastorianus | Q24642813 | ||
The consequences of chromosomal aneuploidy on the transcriptome of cancer cells | Q26995532 | ||
Unisexual and heterosexual meiotic reproduction generate aneuploidy and phenotypic diversity de novo in the yeast Cryptococcus neoformans | Q27316906 | ||
Aneuploidy underlies a multicellular phenotypic switch | Q27935582 | ||
High-resolution mapping of meiotic crossovers and non-crossovers in yeast | Q27938210 | ||
Chromosomal rearrangements as a major mechanism in the onset of reproductive isolation in Saccharomyces cerevisiae | Q28239770 | ||
Acquisition of aneuploidy provides increased fitness during the evolution of antifungal drug resistance | Q28476322 | ||
Gross karyotypic and phenotypic alterations among different progenies of the Candida glabrata CBS138/ATCC2001 reference strain | Q28484473 | ||
Targeting the adaptability of heterogeneous aneuploids | Q28649939 | ||
Complex Ancestries of Lager-Brewing Hybrids Were Shaped by Standing Variation in the Wild Yeast Saccharomyces eubayanus | Q28831187 | ||
To err (meiotically) is human: the genesis of human aneuploidy | Q29618613 | ||
On the road to cancer: aneuploidy and the mitotic checkpoint | Q29619455 | ||
Aneuploidy Causes Non-genetic Individuality | Q29654144 | ||
Comparative genomics of canine-isolated Leishmania (Leishmania) amazonensis from an endemic focus of visceral leishmaniasis in Governador Valadares, southeastern Brazil. | Q30365464 | ||
A role for the mismatch repair system during incipient speciation in Saccharomyces. | Q30884706 | ||
Adaptive introgression as a resource for management and genetic conservation in a changing climate | Q30975730 | ||
Construction of a GAL1-regulated yeast cDNA expression library and its application to the identification of genes whose overexpression causes lethality in yeast | Q31033635 | ||
Risk and efficacy of human-enabled interspecific hybridization for climate-change adaptation: response to Hamilton and Miller (2016). | Q31049410 | ||
The repertoire and dynamics of evolutionary adaptations to controlled nutrient-limited environments in yeast | Q33392677 | ||
Evidence for autotetraploidy associated with reproductive isolation in Saccharomyces cerevisiae: towards a new domesticated species | Q33504844 | ||
A genome-wide analysis reveals no nuclear dobzhansky-muller pairs of determinants of speciation between S. cerevisiae and S. paradoxus, but suggests more complex incompatibilities | Q33649856 | ||
Loss of Heterozygosity Drives Adaptation in Hybrid Yeast | Q33757192 | ||
Widespread, focal copy number variations (CNV) and whole chromosome aneuploidies in Trypanosoma cruzi strains revealed by array comparative genomic hybridization | Q33840100 | ||
Serotype AD strains of Cryptococcus neoformans are diploid or aneuploid and are heterozygous at the mating-type locus | Q34005505 | ||
Variation in chromosome copy number influences the virulence of Cryptococcus neoformans and occurs in isolates from AIDS patients. | Q34059795 | ||
Different selective pressures lead to different genomic outcomes as newly-formed hybrid yeasts evolve | Q34218421 | ||
Ecological success of a group of Saccharomyces cerevisiae/Saccharomyces kudriavzevii hybrids in the northern european wine-making environment. | Q34255347 | ||
Karyotypic determinants of chromosome instability in aneuploid budding yeast | Q34277108 | ||
A genomic view of mosaicism and human disease | Q34339935 | ||
Sequence diversity, reproductive isolation and species concepts in Saccharomyces | Q34563166 | ||
Dynamic large-scale chromosomal rearrangements fuel rapid adaptation in yeast populations | Q34566057 | ||
Recurrent rearrangement during adaptive evolution in an interspecific yeast hybrid suggests a model for rapid introgression | Q34649820 | ||
Effects of aneuploidy on cellular physiology and cell division in haploid yeast | Q34663956 | ||
Hybridization facilitates evolutionary rescue | Q34764130 | ||
Characterization of chromosome stability in diploid, polyploid and hybrid yeast cells | Q34846703 | ||
Allelic variation, aneuploidy, and nongenetic mechanisms suppress a monogenic trait in yeast | Q34864297 | ||
Chromosome and gene copy number variation allow major structural change between species and strains of Leishmania | Q35581571 | ||
Immunity to fungal infections | Q35602207 | ||
The fitness consequences of aneuploidy are driven by condition-dependent gene effects | Q35642077 | ||
Chromosomal copy number variation reveals differential levels of genomic plasticity in distinct Trypanosoma cruzi strains | Q35682612 | ||
Chromosome instability, chromosome transcriptome, and clonal evolution of tumor cell populations | Q35829179 | ||
Adaptation to High Ethanol Reveals Complex Evolutionary Pathways | Q35834410 | ||
Polyploidy can drive rapid adaptation in yeast | Q35835073 | ||
Parasexual Ploidy Reduction Drives Population Heterogeneity Through Random and Transient Aneuploidy in Candida albicans | Q35882346 | ||
Chromosomal Copy Number Variation in Saccharomyces pastorianus Is Evidence for Extensive Genome Dynamics in Industrial Lager Brewing Strains. | Q35973181 | ||
Centromere identity is specified by a single centromeric nucleosome in budding yeast | Q35990276 | ||
Transcriptional consequences of aneuploidy | Q36140289 | ||
Tetraploid cells from cytokinesis failure induce aneuploidy and spontaneous transformation of mouse ovarian surface epithelial cells | Q36164111 | ||
iSeq: A New Double-Barcode Method for Detecting Dynamic Genetic Interactions in Yeast | Q36185016 | ||
Polyploid titan cells produce haploid and aneuploid progeny to promote stress adaptation | Q36205846 | ||
Chromosomal duplication is a transient evolutionary solution to stress. | Q36485051 | ||
Comparative hybridization reveals extensive genome variation in the AIDS-associated pathogen Cryptococcus neoformans | Q36642384 | ||
Phenotypic consequences of tubulin overproduction in Saccharomyces cerevisiae: differences between alpha-tubulin and beta-tubulin | Q36728266 | ||
Tetraploidy, aneuploidy and cancer | Q36745868 | ||
Whole Genome Comparison Reveals High Levels of Inbreeding and Strain Redundancy Across the Spectrum of Commercial Wine Strains of Saccharomyces cerevisiae | Q36780923 | ||
Small chromosomes among Danish Candida glabrata isolates originated through different mechanisms | Q36902473 | ||
Formation of new chromosomes as a virulence mechanism in yeast Candida glabrata | Q37088614 | ||
Whole Genome Analysis of 132 Clinical Saccharomyces cerevisiae Strains Reveals Extensive Ploidy Variation | Q37163002 | ||
Chimeric genomes of natural hybrids of Saccharomyces cerevisiae and Saccharomyces kudriavzevii | Q37174416 | ||
Reproductive isolation in Saccharomyces | Q37224322 | ||
Domestication and Divergence of Saccharomyces cerevisiae Beer Yeasts | Q37246333 | ||
Evolution in Candida albicans populations during a single passage through a mouse host | Q37260611 | ||
Chromosome instability drives phenotypic switching to metastasis | Q37534263 | ||
The genome of Leishmania adleri from a mammalian host highlights chromosome fission in Sauroleishmania | Q37678930 | ||
The aneuploidy paradox: costs and benefits of an incorrect karyotype | Q37923163 | ||
Genome-wide array-CGH analysis reveals YRF1 gene copy number variation that modulates genetic stability in distillery yeasts. | Q38260406 | ||
Effects of aneuploidy on gene expression: implications for cancer | Q38629879 | ||
Ploidy Variation in Fungi: Polyploidy, Aneuploidy, and Genome Evolution | Q38650449 | ||
Flow cytometric analysis and microsatellite genotyping reveal extensive DNA content variation in Trypanosoma cruzi populations and expose contrasts between natural and experimental hybrids. | Q39173855 | ||
Industrial Relevance of Chromosomal Copy Number Variation in Saccharomyces Yeasts. | Q39199958 | ||
The evolutionary significance of polyploidy | Q39305536 | ||
Tracing Genetic Exchange and Biogeography of Cryptococcus neoformans var. grubii at the Global Population Level. | Q39395608 | ||
Comparative anatomical analysis of human trisomies 13, 18, and 21: I. The forelimb | Q39479389 | ||
Completion of a parasexual cycle in Candida albicans by induced chromosome loss in tetraploid strains | Q39756083 | ||
The mismatch repair system reduces meiotic homeologous recombination and stimulates recombination-dependent chromosome loss | Q40020196 | ||
Gene Expression in Leishmania Is Regulated Predominantly by Gene Dosage | Q40044713 | ||
Parasex Generates Phenotypic Diversity de Novo and Impacts Drug Resistance and Virulence in Candida albicans | Q40045106 | ||
Genetic Diversity and Genomic Plasticity of Cryptococcus neoformans AD Hybrid Strains | Q40978275 | ||
Hsp90 stress potentiates rapid cellular adaptation through induction of aneuploidy | Q41000066 | ||
The mismatch repair system contributes to meiotic sterility in an interspecific yeast hybrid. | Q41064501 | ||
The Stress-Inducible Peroxidase TSA2 Underlies a Conditionally Beneficial Chromosomal Duplication in Saccharomyces cerevisiae | Q41383406 | ||
Molecular specificity, convergence and constraint shape adaptive evolution in nutrient-poor environments | Q41862781 | ||
Cell populations can use aneuploidy to survive telomerase insufficiency | Q41877927 | ||
Modulation of gene expression in drug resistant Leishmania is associated with gene amplification, gene deletion and chromosome aneuploidy. | Q41902913 | ||
Evolutionary rescue by compensatory mutations is constrained by genomic and environmental backgrounds | Q42098689 | ||
Aneuploidy and isochromosome formation in drug-resistant Candida albicans | Q42113364 | ||
Aneuploidy confers quantitative proteome changes and phenotypic variation in budding yeast | Q42369487 | ||
Relationships between rDNA, Nop1 and Sir complex in biotechnologically relevant distillery yeasts. | Q42388503 | ||
Gene expression modulation and the molecular mechanisms involved in Nelfinavir resistance in Leishmania donovani axenic amastigotes | Q45302847 | ||
Modeling the contributions of chromosome segregation errors and aneuploidy to Saccharomyces hybrid sterility | Q46297318 | ||
An isochromosome confers drug resistance in vivo by amplification of two genes, ERG11 and TAC1. | Q46684704 | ||
Fitness distribution and transgressive segregation across 40 environments in a hybrid progeny population of the human-pathogenic yeast Cryptococcus neoformans | Q46689795 | ||
The effect of hybrid transgression on environmental tolerance in experimental yeast crosses. | Q46833089 | ||
Genomics of Adaptation Depends on the Rate of Environmental Change in Experimental Yeast Populations. | Q49679448 | ||
Interspecies hybridization in the conservation toolbox: response to Kovach et al. (2016). | Q51304422 | ||
P4510 | describes a project that uses | ggplot2 | Q326489 |
P577 | publication date | 2019-06-13 | |
P1433 | published in | Yeast | Q8050997 |
P1476 | title | Aneuploidy in yeast: Segregation error or adaptation mechanism? |
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