about
Distribution of fitness effects among beneficial mutations before selection in experimental populations of bacteriaCan the experimental evolution programme help us elucidate the genetic basis of adaptation in nature?Effects of new mutations on fitness: insights from models and data.Estimation of long-term effective population sizes through the history of durum wheat using microsatellite data.A replicated climate change field experiment reveals rapid evolutionary response in an ecologically important soil invertebrate.Microsatellite diversity and broad scale geographic structure in a model legume: building a set of nested core collection for studying naturally occurring variation in Medicago truncatula.Adaptive evolution of the symbiotic gene NORK is not correlated with shifts of rhizobial specificity in the genus Medicago."Ménage à trois": the presence/absence of thyme shapes the mutualistic interaction between the host plant Medicago truncatula (Fabaceae) and its symbiotic bacterium Sinorhizobium meliloti.Insertion and deletion processes in recent human history.The Evolutionary Interplay between Adaptation and Self-Fertilization.Molecular adaptation in flowering and symbiotic recognition pathways: insights from patterns of polymorphism in the legume Medicago truncatulaCost of adaptation and fitness effects of beneficial mutations in Pseudomonas fluorescens.Properties of selected mutations and genotypic landscapes under Fisher's geometric model.GC-Content evolution in bacterial genomes: the biased gene conversion hypothesis expands.The making of a new pathogen: insights from comparative population genomics of the domesticated wheat pathogen Mycosphaerella graminicola and its wild sister species.Deleterious mutation accumulation and the regeneration of genetic resources.Extensive X-linked adaptive evolution in central chimpanzeesStatistical Inference in the Wright-Fisher Model Using Allele Frequency Data.Microbial community assembly and evolution in subseafloor sediment.Inference of purifying and positive selection in three subspecies of chimpanzees (Pan troglodytes) from exome sequencing.What drives parallel evolution?: How population size and mutational variation contribute to repeated evolution.Inference Under a Wright-Fisher Model Using an Accurate Beta Approximation.Epistasis and the Structure of Fitness Landscapes: Are Experimental Fitness Landscapes Compatible with Fisher's Geometric Model?On the distribution of temporal variations in allele frequency: consequences for the estimation of effective population size and the detection of loci undergoing selection.Rates of fitness decline and rebound suggest pervasive epistasisGenomic determinants of protein evolution and polymorphism in Arabidopsis.One size fits all? Direct evidence for the heterogeneity of genetic drift throughout the genome.Purifying selection and molecular adaptation in the genome of Verminephrobacter, the heritable symbiotic bacteria of earthworms.Inference of Distribution of Fitness Effects and Proportion of Adaptive Substitutions from Polymorphism Data.Factors affecting polymorphism at microsatellite loci in bread wheat [ Triticum aestivum (L.) Thell]: effects of mutation processes and physical distance from the centromere.Patterns of Genome-Wide Nucleotide Diversity in the Gynodioecious Plant Thymus vulgaris Are Compatible with Recent Sweeps of Cytoplasmic Genes.Uneven segregation of sporophytic self-incompatibility alleles in Arabidopsis lyrataIncreased frequency of drought reduces species richness of enchytraeid communities in both wet and dry heathland soilsIdentifying Drivers of Parallel Evolution: A Regression Model ApproachThe fitness landscape of the codon space across environmentsSex inheritance in gynodioecious species: a polygenic viewArtificial selection on phenotypically plastic traitsInbreeding depression due to mildly deleterious mutations in finite populations: size does matterNested core collections maximizing genetic diversity in Arabidopsis thalianaMarker-based investigation of inbreeding depression in the endangered species Brassica insularis
P50
Q22122042-7B6A0BBA-0136-4DE3-BC16-F04EB665D3DFQ28082810-30443FCD-17F9-48A8-A28D-64AD08E2561EQ30828514-1419B7C3-B01F-40A5-86B3-5FD26B322B31Q30976416-6D1448F7-5633-4943-8712-A034DBE3386EQ31083755-44686962-2B97-4F76-BD1F-C35B54866A97Q33266467-C8E28865-70FD-4851-9A9E-96F238323B4AQ33305133-443CC9BC-7B78-44DA-9A8C-EDD96A0F475EQ33354276-CC77EC0E-8650-4C39-A389-6A49F9D0FFE5Q33526355-92813C6A-F484-4C91-A60E-60540EB406C9Q33745421-C70E30A6-8502-44AA-8193-E9F1F672BAFAQ33977695-8D51327A-E169-434A-9C28-44E918B5AF91Q34003200-93003C2E-4AD1-4991-93B2-E6F935849F8AQ35079781-975F8FFB-C265-4DB1-A9A0-F2A798818588Q35557137-6D547520-6494-4873-934F-5641E2DD8211Q35581577-F640EF76-AC25-4B51-97E7-51EC3BE95D6BQ35681237-82D195BE-FBDC-4886-AE72-AABE9F3BC1FCQ35750950-480A758E-79A7-4F3D-916D-A0D4BC511981Q36273122-690F36F0-164F-47E2-ADB4-D6940E81A0CCQ38938702-3BA3106A-508E-4F50-8773-AF9B786DE6F2Q40270429-F8CD49AD-9B3C-487E-86C9-B0539F5BD6B2Q40446556-D10C8C51-3694-49DA-A9DC-F94A18E9BD7BQ40603348-F97C2D6A-D1DC-4CE2-9906-4310EEE20BE1Q40725548-4E56598C-1D8D-4B1D-96D2-9A35D07CAFF3Q41892520-A9C44E1C-475A-4BA0-906B-A4AD4B884F27Q41911214-4C1579F1-E8F6-4C05-BA7F-6A0AC64A8C13Q42245496-EE5990E1-D6EF-41AB-BDC0-C048D39AFD36Q42384844-DEAD33F5-D877-4646-B363-1B4C047E95CEQ42558909-839F5ACD-0D21-4E9D-8F41-7906FE563B81Q42693407-801F0446-ACE0-4B3D-A519-EE7A8C361A98Q43562897-FE50AA08-A79D-466D-80AB-ADC96A030BFAQ49617227-3D0902ED-7BD9-4E7E-84B7-0C29420D0B14Q57760425-87658DCD-BF1D-417B-BF87-7491666C5C32Q58380202-3D56891B-6796-4676-AF6B-FE0A4FA312E7Q58697126-BEBDAE5E-234F-4349-9152-8FF6B098EBCEQ58914585-0BEDAD44-E90C-40F5-94CC-D9F635AA31C1Q64362265-835BB7AD-F17F-4AB6-9D0B-E2798A86628FQ73481610-F5609F02-EF29-44FD-8209-A761B9D81A15Q73601686-C47B2F32-F17F-4D77-85E1-225CEAFECA73Q79844522-5183F7AE-9C54-4DF1-BED0-0297084A6C89Q79931169-DB36BA6F-0DB0-48E9-8A11-0596CA020446
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Thomas Bataillon
@ast
Thomas Bataillon
@en
Thomas Bataillon
@es
Thomas Bataillon
@nl
Thomas Bataillon
@sl
type
label
Thomas Bataillon
@ast
Thomas Bataillon
@en
Thomas Bataillon
@es
Thomas Bataillon
@nl
Thomas Bataillon
@sl
prefLabel
Thomas Bataillon
@ast
Thomas Bataillon
@en
Thomas Bataillon
@es
Thomas Bataillon
@nl
Thomas Bataillon
@sl
P106
P1153
6602574369
P21
P31
P496
0000-0002-4730-2538