| scholarly article | Q13442814 |
| P356 | DOI | 10.1093/OXFORDJOURNALS.MOLBEV.A026375 |
| P698 | PubMed publication ID | 10833201 |
| P2093 | author name string | J J Bull | |
| H A Wichman | |||
| M R Badgett | |||
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| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | bacteriophage | Q165028 |
| P304 | page(s) | 942-50 | |
| P577 | publication date | 2000-06-01 | |
| P1433 | published in | Molecular Biology and Evolution | Q1992656 |
| P1476 | title | Big-benefit mutations in a bacteriophage inhibited with heat | |
| P478 | volume | 17 |
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| Q47445804 | Adaptation of experimental yeast populations to stressful conditions in relation to population size |
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| Q39919979 | Adaptive evolution and inherent tolerance to extreme thermal environments |
| Q24545052 | Adaptive molecular evolution for 13,000 phage generations: a possible arms race |
| Q34626340 | Adaptive regulatory substitutions affect multiple stages in the life cycle of the bacteriophage φX174 |
| Q41830576 | Adaptive walks toward a moving optimum. |
| Q39655282 | Antigenic diversification is correlated with increased thermostability in a mammalian virus |
| Q50133897 | Breaking Symmetry in Viral Icosahedral Capsids as Seen through the Lenses of X-ray Crystallography and Cryo-Electron Microscopy |
| Q35432114 | Changing folding and binding stability in a viral coat protein: a comparison between substitutions accessible through mutation and those fixed by natural selection |
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| Q51349076 | Constraints on adaptation of Escherichia coli to mixed-resource environments increase over time. |
| Q41166962 | Diminishing Returns From Beneficial Mutations and Pervasive Epistasis Shape the Fitness Landscape for Rifampicin Resistance in Pseudomonas aeruginosa |
| Q34284446 | Diversity of environmental single-stranded DNA phages revealed by PCR amplification of the partial major capsid protein |
| Q36071913 | Effects of the binding of calcium ions on the structure and dynamics of the ΦX174 virus investigated using molecular dynamics |
| Q26783005 | Elucidating the molecular architecture of adaptation via evolve and resequence experiments |
| Q37412772 | Environment determines epistatic patterns for a ssDNA virus |
| Q41907301 | Epistasis and the adaptability of an RNA virus |
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| Q34616074 | Evaluating the impact of population bottlenecks in experimental evolution |
| Q46272784 | Evolution of a new bacterial pathway for 4-nitrotoluene degradation |
| Q57145362 | Evolution of bacteria specialization along an antibiotic dose gradient |
| Q51461404 | Evolutionary history and genetic parallelism affect correlated responses to evolution. |
| Q40396005 | Evolutionary interplay between structure, energy and epistasis in the coat protein of the ϕX174 phage family |
| Q41974764 | Evolutionary principles and synthetic biology: avoiding a molecular tragedy of the commons with an engineered phage |
| Q28266903 | Evolutionary robustness of an optimal phenotype: re-evolution of lysis in a bacteriophage deleted for its lysin gene |
| Q34447055 | Experimental evolution of a bacteriophage virus reveals the trajectory of adaptation across a fecundity/longevity trade-off. |
| Q34109071 | Experimental evolution of viruses: Microviridae as a model system |
| Q56900292 | Experimental evolution yields hundreds of mutations in a functional viral genome |
| Q45733633 | Experimental genomic evolution: extensive compensation for loss of DNA ligase activity in a virus |
| Q22122004 | Fitness and its role in evolutionary genetics |
| Q22066182 | Fitness effects of advantageous mutations in evolving Escherichia coli populations |
| Q51888518 | Fixation probabilities depend on life history: fecundity, generation time and survival in a burst-death model. |
| Q41810453 | Fixation probabilities when generation times are variable: the burst death model. |
| Q41850470 | Fixation probability favors increased fecundity over reduced generation time |
| Q41787576 | Fixation probability for lytic viruses: the attachment-lysis model |
| Q35077412 | From resistance to stimulation: the evolution of a virus in the presence of a dominant lethal inhibitory scaffolding protein |
| Q54505889 | Genome properties and the limits of adaptation in bacteriophages. |
| Q28754815 | Genomewide patterns of substitution in adaptively evolving populations of the RNA bacteriophage MS2 |
| Q41889233 | Growth Trade-Offs Accompany the Emergence of Glycolytic Metabolism in Shewanella oneidensis MR-1. |
| Q40015135 | High-resolution mapping of evolutionary trajectories in a phage |
| Q34303457 | Horizontal gene transfer and the evolution of microvirid coliphage genomes |
| Q41155475 | Intergenic incompatibilities reduce fitness in hybrids of extremely closely related bacteriophages |
| Q48062443 | Lack of Evidence for Sign Epistasis Between Beneficial Mutations in an RNA Bacteriophage |
| Q22122024 | Microbial genetics: Evolution experiments with microorganisms: the dynamics and genetic bases of adaptation |
| Q34439602 | Missense meanderings in sequence space: a biophysical view of protein evolution |
| Q42549620 | Models of experimental evolution: the role of genetic chance and selective necessity. |
| Q30327508 | Models of protein sequence evolution and their applications. |
| Q42205511 | Multiple genetic pathways to similar fitness limits during viral adaptation to a new host |
| Q34477455 | Mutational effects and population dynamics during viral adaptation challenge current models |
| Q22065913 | Mutational fitness effects in RNA and single-stranded DNA viruses: common patterns revealed by site-directed mutagenesis studies |
| Q38786690 | Mutations of intermediate effect are responsible for adaptation in evolving Pseudomonas fluorescens populations |
| Q91941936 | No Cost of Complexity in Bacteriophages Adapting to a Complex Environment |
| Q37052314 | Parallel genetic evolution within and between bacteriophage species of varying degrees of divergence |
| Q35294643 | Payoffs, not tradeoffs, in the adaptation of a virus to ostensibly conflicting selective pressures |
| Q33531914 | Phenotypic effect of mutations in evolving populations of RNA molecules |
| Q30992820 | Positive selection at high temperature reduces gene transcription in the bacteriophage ϕX174. |
| Q34613893 | Profiles of adaptation in two similar viruses |
| Q43989379 | Recombination and hitchhiking of deleterious alleles |
| Q34638096 | Selection affects genes involved in replication during long-term evolution in experimental populations of the bacteriophage φX174 |
| Q30424370 | Selective pressure causes an RNA virus to trade reproductive fitness for increased structural and thermal stability of a viral enzyme |
| Q37695988 | Specificity of genome evolution in experimental populations of Escherichia coli evolved at different temperatures |
| Q35748281 | Stickbreaking: a novel fitness landscape model that harbors epistasis and is consistent with commonly observed patterns of adaptive evolution |
| Q36429821 | Synergistic Pleiotropy Overrides the Costs of Complexity in Viral Adaptation |
| Q58493825 | THE EVOLUTION OF SPECIFICITY IN EVOLVING AND COEVOLVING ANTAGONISTIC INTERACTIONS BETWEEN A BACTERIA AND ITS PHAGE |
| Q28307788 | Testing optimality with experimental evolution: lysis time in a bacteriophage |
| Q35945772 | Testing the extreme value domain of attraction for distributions of beneficial fitness effects |
| Q24543521 | The Distribution of Fitness Effects Among Beneficial Mutations |
| Q34399491 | The consistency of beneficial fitness effects of mutations across diverse genetic backgrounds |
| Q41081632 | The distribution of beneficial mutant effects under strong selection. |
| Q52028642 | The effects of genetic drift in experimental evolution. |
| Q39979716 | The effects of low-impact mutations in digital organisms |
| Q34331592 | The evolution of a pleiotropic fitness tradeoff in Pseudomonas fluorescens. |
| Q28471969 | The fitness effects of random mutations in single-stranded DNA and RNA bacteriophages |
| Q37229521 | The fixation probability of beneficial mutations |
| Q54430796 | The genetic basis of parallel and divergent phenotypic responses in evolving populations of Escherichia coli. |
| Q33245025 | The genetic basis of thermal reaction norm evolution in lab and natural phage populations |
| Q37353497 | The genetics of adaptation for eight microvirid bacteriophages |
| Q35095531 | The impact of spatial structure on viral genomic diversity generated during adaptation to thermal stress |
| Q21203773 | The look-ahead effect of phenotypic mutations |
| Q40413453 | The role of advantageous mutations in enhancing the evolution of a recombination modifier |
| Q39024576 | The rule of declining adaptability in microbial evolution experiments. |
| Q34645731 | The speed of adaptation in large asexual populations |
| Q22061769 | Tradeoffs in bacteriophage life histories |
| Q33281050 | Understanding the evolutionary fate of finite populations: the dynamics of mutational effects |
| Q34588639 | Variable pleiotropic effects from mutations at the same locus hamper prediction of fitness from a fitness component |
| Q37410676 | Viral adaptation to an antiviral protein enhances the fitness level to above that of the uninhibited wild type |
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