about
The molecular basis of phenotypic variation in yeastThe genetic basis of natural variation in oenological traits in Saccharomyces cerevisiae.Genetic basis of haloperidol resistance in Saccharomyces cerevisiae is complex and dose dependentNatural yeast promoter variants reveal epistasis in the generation of transcriptional-mediated noise and its potential benefit in stressful conditions.Variance heterogeneity in Saccharomyces cerevisiae expression data: trans-regulation and epistasis.An interaction quantitative trait loci tool implicates epistatic functional variants in an apoptosis pathway in smallpox vaccine eQTL data.Exploiting the extraordinary genetic polymorphism of ciona for developmental genetics with whole genome sequencing.Identification of Nitrogen Consumption Genetic Variants in Yeast Through QTL Mapping and Bulk Segregant RNA-Seq Analyses.Genome Diversity and Evolution in the Budding Yeasts (Saccharomycotina).Inferring genome-wide recombination landscapes from advanced intercross lines: application to yeast crosses.Comparative polygenic analysis of maximal ethanol accumulation capacity and tolerance to high ethanol levels of cell proliferation in yeastIdentification of multiple interacting alleles conferring low glycerol and high ethanol yield in Saccharomyces cerevisiae ethanolic fermentationGenetic basis of variations in nitrogen source utilization in four wine commercial yeast strainsGenome wide association identifies novel loci involved in fungal communicationQTL analysis of high thermotolerance with superior and downgraded parental yeast strains reveals new minor QTLs and converges on novel causative alleles involved in RNA processing.Natural genetic variation impacts expression levels of coding, non-coding, and antisense transcripts in fission yeastGenetic architecture of natural variation of telomere length in Arabidopsis thalianaImproving industrial yeast strains: exploiting natural and artificial diversity.Single nucleotide variants in transcription factors associate more tightly with phenotype than with gene expressionTiled ChrI RHS collection: a pilot high-throughput screening tool for identification of allelic variants.The genomic and phenotypic diversity of Schizosaccharomyces pombe.Mapping small effect mutations in Saccharomyces cerevisiae: impacts of experimental design and mutational properties.Extensive Recombination of a Yeast Diploid Hybrid through Meiotic ReversionAn Energy-Independent Pro-longevity Function of Triacylglycerol in YeastAnalysis of Polygenic Mutants Suggests a Role for Mediator in Regulating Transcriptional Activation Distance in Saccharomyces cerevisiaeThe genetic architecture of low-temperature adaptation in the wine yeast Saccharomyces cerevisiaePolymorphisms in the yeast galactose sensor underlie a natural continuum of nutrient-decision phenotypes.High-resolution mapping of complex traits with a four-parent advanced intercross yeast population.Population perspectives on functional genomic variation in yeast.Genetic and nongenetic determinants of cell growth variation assessed by high-throughput microscopy.Predicting complex phenotype-genotype interactions to enable yeast engineering: Saccharomyces cerevisiae as a model organism and a cell factory.A high-definition view of functional genetic variation from natural yeast genomesMany interspecific chromosomal introgressions are highly prevalent in Holarctic Saccharomyces uvarum strains found in human-related fermentations.Natural variation in a single amino acid substitution underlies physiological responses to topoisomerase II poisons.Exploiting budding yeast natural variation for industrial processes.Natural gene expression variation studies in yeast.Genomic saturation mutagenesis and polygenic analysis identify novel yeast genes affecting ethyl acetate production, a non-selectable polygenic trait.Genome-wide mapping of cellular traits using yeast.EXPLoRA-web: linkage analysis of quantitative trait loci using bulk segregant analysis.Incorporating comparative genomics into the Design-Test-Learn cycle of microbial strain engineering.
P2860
Q27026011-01272EA8-03EA-44C7-8922-CA13AFBBEE1AQ27930075-C8FE3F36-5CB3-4193-AB6A-4E7B51BE57AEQ28542762-2BE834B1-CCFB-4269-ABB9-5A8B726C131BQ30412483-7A7F7912-4CEE-4F08-AEEA-32523E5369C8Q30694202-8B352477-A221-4B9D-A84D-5707239DAB97Q31070382-B499F4AF-BC64-47C9-B40D-9112F38F4182Q33575864-444FA6AF-4AFB-4380-B733-0CC819DA57E3Q33807619-747441DE-3BA4-43D1-9F0F-7A242A37B9BFQ33877478-8E668E91-B6F4-4627-A368-A1DB72FA6F3EQ34712445-3D196BED-E2E5-4A7A-8B60-0A4C98DD1A6CQ34765422-7AEA0CA1-4971-41A5-96DE-7609E3A51B7BQ34768752-54593A45-AF0D-4DF7-B6DE-2883D0349C08Q34796602-B14B04D1-5EC4-4550-BE3B-AAC33161E9EEQ34917285-D3F1BD68-75AC-44D9-B51F-8D3FFA0FC10DQ34961911-67C419FE-03CE-4DCB-890B-6CE4721C0F7EQ34987014-6BABA4F9-7425-455D-B761-012AE53C4A17Q35050940-937FDBA2-CA91-411F-9FDC-23712EED2595Q35145909-1BB3CA64-38EB-44B4-AF30-F3403C79F293Q35160338-4475A44D-7D07-4BDF-A5D4-0638EA627E11Q35434127-8444DE4C-FAC9-4342-B1AB-CE4AA2E537A4Q35558280-9BB1C53B-0A82-4A99-917F-B0A7AF4EAC38Q35683650-936843BC-5024-47C7-8596-8896387BA7DFQ35909579-A62EF0C4-4536-4A98-8650-B531B61D664FQ35933322-2213A7DA-E909-40A2-9F7D-ED9115552AB1Q36132301-F4760A7F-5CCA-4EED-8A14-9F4E4F430B48Q36280408-3F3562DD-D4DD-4EED-A629-DF12220B6697Q36380064-4DBD0358-0D6C-4B54-BBA1-57222F9B231DQ37269732-E31D40B7-657B-441B-9981-6B0B9FE9639BQ37341564-C2DC45DD-BE74-4DF4-8627-D13B9546A392Q37342296-B11D0C3C-F839-46E8-A8BB-CD895DC1B803Q37542238-0FFD3F19-F0FC-410D-80BD-518613EF49B2Q38555974-AF030769-E7DB-4CB7-84E5-6DE0B034E45CQ38639306-29B829CE-CA61-4677-89F1-683BBCBB67DFQ38682376-EE863FAB-E093-4D1F-8F0C-A225862D676BQ38809933-9DAB3537-5660-4073-B5CD-03547D64955AQ38817687-CA8198CA-A3B0-45C9-8A99-4DFE7985C3F6Q38858453-3F1A78CC-2AF9-4FB1-B062-C73D864EB1E6Q39216215-DE8B4960-DA46-4D77-B019-F6A6BF87E964Q39371111-75047DCA-6B39-4C28-A6F8-CA186641FB3BQ39388486-37E60C27-0BAD-4DDC-B6B7-C99E6B8C2A0E
P2860
description
2012 nî lūn-bûn
@nan
2012 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Advances in quantitative trait analysis in yeast.
@ast
Advances in quantitative trait analysis in yeast.
@en
Advances in quantitative trait analysis in yeast.
@nl
type
label
Advances in quantitative trait analysis in yeast.
@ast
Advances in quantitative trait analysis in yeast.
@en
Advances in quantitative trait analysis in yeast.
@nl
prefLabel
Advances in quantitative trait analysis in yeast.
@ast
Advances in quantitative trait analysis in yeast.
@en
Advances in quantitative trait analysis in yeast.
@nl
P2860
P921
P1433
P1476
Advances in quantitative trait analysis in yeast
@en
P2093
Edward J Louis
P2860
P304
P356
10.1371/JOURNAL.PGEN.1002912
P577
2012-08-16T00:00:00Z