scholarly article | Q13442814 |
P50 | author | Susan F Bailey | Q51523868 |
Thomas Bataillon | Q55138314 | ||
P2860 | cites work | Revisiting an old riddle: what determines genetic diversity levels within species? | Q21145734 |
Distribution of fitness effects caused by single-nucleotide substitutions in bacteriophage f1 | Q22065129 | ||
The distribution of fitness effects of new deleterious amino acid mutations in humans | Q22065135 | ||
Distribution of Fitness and Virulence Effects Caused by Single-Nucleotide Substitutions in Tobacco Etch Virus | Q22065440 | ||
Fitness effects of advantageous mutations in evolving Escherichia coli populations | Q22066182 | ||
Experimental illumination of a fitness landscape | Q22066261 | ||
The distribution of fitness effects caused by single-nucleotide substitutions in an RNA virus | Q22066390 | ||
EVOLUTION OF SEXRESOLVING THE PARADOX OF SEX AND RECOMBINATION | Q22121995 | ||
Fitness and its role in evolutionary genetics | Q22122004 | ||
Fundamental concepts in genetics: Effective population size and patterns of molecular evolution and variation | Q22122006 | ||
Distribution of fitness effects among beneficial mutations before selection in experimental populations of bacteria | Q22122042 | ||
Extensive X-linked adaptive evolution in central chimpanzees | Q35750950 | ||
Testing the extreme value domain of attraction for distributions of beneficial fitness effects | Q35945772 | ||
The distribution of beneficial and fixed mutation fitness effects close to an optimum | Q36724374 | ||
A general extreme value theory model for the adaptation of DNA sequences under strong selection and weak mutation | Q36969656 | ||
Beneficial fitness effects are not exponential for two viruses. | Q37009661 | ||
Capturing the mutational landscape of the beta-lactamase TEM-1. | Q37088726 | ||
Genetic hitchhiking versus background selection: the controversy and its implications | Q37716247 | ||
Joint analysis of demography and selection in population genetics: where do we stand and where could we go? | Q37945702 | ||
Mutations of intermediate effect are responsible for adaptation in evolving Pseudomonas fluorescens populations | Q38786690 | ||
A comparison of models to infer the distribution of fitness effects of new mutations | Q39218552 | ||
Diminishing Returns From Beneficial Mutations and Pervasive Epistasis Shape the Fitness Landscape for Rifampicin Resistance in Pseudomonas aeruginosa | Q41166962 | ||
An ABC method for estimating the rate and distribution of effects of beneficial mutations | Q41582528 | ||
Rates of fitness decline and rebound suggest pervasive epistasis | Q41911214 | ||
On measuring selection in experimental evolution. | Q42076622 | ||
Cost of antibiotic resistance and the geometry of adaptation. | Q42113492 | ||
The distribution of fitness effects of new beneficial mutations in Pseudomonas fluorescens | Q42585639 | ||
Estimating the rate of adaptive molecular evolution in the presence of slightly deleterious mutations and population size change | Q42624915 | ||
Population genetics of polymorphism and divergence under fluctuating selection | Q42963107 | ||
The evolution of epistasis and its links with genetic robustness, complexity and drift in a phenotypic model of adaptation | Q43138629 | ||
Mutational robustness of ribosomal protein genes | Q50045244 | ||
An equivalence principle for the incorporation of favorable mutations in asexual populations. | Q50736355 | ||
Distributions of epistasis in microbes fit predictions from a fitness landscape model. | Q54444950 | ||
Fitness effects of fixed beneficial mutations in microbial populations. | Q54541810 | ||
FISHER'S MODEL AND THE GENOMICS OF ADAPTATION: RESTRICTED PLEIOTROPY, HETEROGENOUS MUTATION, AND PARALLEL EVOLUTION | Q60312268 | ||
COMPENSATING FOR OUR LOAD OF MUTATIONS: FREEZING THE MELTDOWN OF SMALL POPULATIONS | Q63379853 | ||
THE LENGTH OF ADAPTIVE WALKS IS INSENSITIVE TO STARTING FITNESS IN ASPERGILLUS NIDULANS | Q63438199 | ||
Risk of population extinction from fixation of deleterious and reverse mutations | Q77392703 | ||
The distribution of fitness effects among beneficial mutations in Fisher's geometric model of adaptation | Q81912483 | ||
Experimental genomics of fitness in yeast | Q82772897 | ||
Complexity, pleiotropy, and the fitness effect of mutations | Q84283923 | ||
Distribution of fitness effects caused by random insertion mutations in Escherichia coli | Q22122455 | ||
Mutations of Bacteria from Virus Sensitivity to Virus Resistance | Q24533278 | ||
Rates of spontaneous mutation | Q24548000 | ||
Strong purifying selection at synonymous sites in D. melanogaster | Q24810381 | ||
Reference-free population genomics from next-generation transcriptome data and the vertebrate-invertebrate gap | Q27323073 | ||
The fitness effects of random mutations in single-stranded DNA and RNA bacteriophages | Q28471969 | ||
The distribution of fitness effects of beneficial mutations in Pseudomonas aeruginosa | Q28474903 | ||
The probability of evolutionary rescue: towards a quantitative comparison between theory and evolution experiments | Q28710078 | ||
Quantifying organismal complexity using a population genetic approach | Q30829788 | ||
The properties of adaptive walks in evolving populations of fungus | Q30947119 | ||
Assessing the evolutionary impact of amino acid mutations in the human genome | Q33339383 | ||
A general multivariate extension of Fisher's geometrical model and the distribution of mutation fitness effects across species | Q33342879 | ||
Pervasive natural selection in the Drosophila genome? | Q33463271 | ||
Measuring the rates of spontaneous mutation from deep and large-scale polymorphism data | Q33467737 | ||
Adaptation, plasticity, and extinction in a changing environment: towards a predictive theory. | Q33576905 | ||
Shifts in the intensity of purifying selection: an analysis of genome-wide polymorphism data from two closely related yeast species | Q33684611 | ||
Understanding and using quantitative genetic variation | Q33743116 | ||
Determining mutation rates in bacterial populations | Q33803752 | ||
Climate change and evolutionary adaptation | Q33829627 | ||
The population genetics of beneficial mutations | Q33856621 | ||
Estimation of spontaneous genome-wide mutation rate parameters: whither beneficial mutations? | Q33940364 | ||
The Measurement of Gene Mutation Rate in Drosophila, Its High Variability, and Its Dependence upon Temperature. | Q33945910 | ||
THE GENETIC STRUCTURE OF NATURAL POPULATIONS OF DROSOPHILA MELANOGASTER. I. SPONTANEOUS MUTATION RATE OF POLYGENES CONTROLLING VIABILITY | Q33981138 | ||
Cost of adaptation and fitness effects of beneficial mutations in Pseudomonas fluorescens. | Q34003200 | ||
Genome wide analyses reveal little evidence for adaptive evolution in many plant species. | Q34042396 | ||
A population genetics-phylogenetics approach to inferring natural selection in coding sequences | Q34092400 | ||
Adaptive evolution: evaluating empirical support for theoretical predictions | Q34312048 | ||
Estimating selection on nonsynonymous mutations | Q34587600 | ||
Spontaneous mutational variation for body size in Caenorhabditis elegans | Q34616136 | ||
Mutation accumulation in populations of varying size: the distribution of mutational effects for fitness correlates in Caenorhabditis elegans | Q34643894 | ||
Estimates of the genomic mutation rate for detrimental alleles in Drosophila melanogaster | Q34645040 | ||
Adaptive mutations in bacteria: high rate and small effects | Q34661718 | ||
A method for inferring the rate of occurrence and fitness effects of advantageous mutations | Q35620399 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 76-92 | |
P577 | publication date | 2014-05-30 | |
P1433 | published in | Annals of the New York Academy of Sciences | Q2431664 |
P1476 | title | Effects of new mutations on fitness: insights from models and data | |
P478 | volume | 1320 |
Q41021919 | A statistical guide to the design of deep mutational scanning experiments |
Q46070825 | Analysis of in vitro evolution reveals the underlying distribution of catalytic activity among random sequences. |
Q58741992 | Antagonistic pleiotropy for carbon use is rare in new mutations |
Q28082810 | Can the experimental evolution programme help us elucidate the genetic basis of adaptation in nature? |
Q48247773 | Computational prediction of the phenotypic effects of genetic variants: basic concepts and some application examples in Drosophila nervous system genes. |
Q50987327 | Costs of CRISPR-Cas-mediated resistance in Streptococcus thermophilus. |
Q56875376 | Directed evolution of Escherichia coli with lower-than-natural plasmid mutation rates |
Q35862886 | Distribution of mutational fitness effects and of epistasis in the 5' untranslated region of a plant RNA virus |
Q47238297 | Experimental determination and prediction of the fitness effects of random point mutations in the biosynthetic enzyme HisA. |
Q35954894 | Hierarchy and extremes in selections from pools of randomized proteins |
Q42693407 | Inference of Distribution of Fitness Effects and Proportion of Adaptive Substitutions from Polymorphism Data. |
Q40270429 | Inference of purifying and positive selection in three subspecies of chimpanzees (Pan troglodytes) from exome sequencing |
Q33642802 | Inference of the Distribution of Selection Coefficients for New Nonsynonymous Mutations Using Large Samples |
Q63968578 | Mutational and non mutational adaptation of Salmonella enterica to the gall bladder |
Q35079781 | Properties of selected mutations and genotypic landscapes under Fisher's geometric model. |
Q57143247 | RAiSD detects positive selection based on multiple signatures of a selective sweep and SNP vectors |
Q90244482 | Recent insights into the genotype-phenotype relationship from massively parallel genetic assays |
Q47144203 | Regulatory network structure determines patterns of intermolecular epistasis. |
Q35746027 | Systematic Mapping of Protein Mutational Space by Prolonged Drift Reveals the Deleterious Effects of Seemingly Neutral Mutations |
Q51168768 | Temperature effects on life-history trade-offs, germline maintenance and mutation rate under simulated climate warming. |
Q90021671 | The Role of Mutation Bias in Adaptive Evolution |
Q35885995 | The properties of spontaneous mutations in the opportunistic pathogen Pseudomonas aeruginosa |
Q33778201 | The road not taken: Could stress-specific mutations lead to different evolutionary paths? |
Q36068867 | The waiting time problem in a model hominin population |
Q92451154 | Turnover of ribosome-associated transcripts from de novo ORFs produces gene-like characteristics available for de novo gene emergence in wild yeast populations |
Q49957624 | Variation in Mutational Robustness between Different Proteins and the Predictability of Fitness Effects. |
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