| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2004PNAS..10111531E |
| P818 | arXiv ID | q-bio/0407012 |
| P356 | DOI | 10.1073/PNAS.0404656101 |
| P932 | PMC publication ID | 511006 |
| P698 | PubMed publication ID | 15289608 |
| P5875 | ResearchGate publication ID | 8420156 |
| P50 | author | Michael W. Deem | Q6835129 |
| P2093 | author name string | David J Earl | |
| P2860 | cites work | Stochastic Problems in Physics and Astronomy | Q21709780 |
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| Transposons and genome evolution in plants | Q33946983 | ||
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| Origin of genes | Q36010302 | ||
| Transposable elements as sources of variation in animals and plants | Q36010477 | ||
| The many faces of DNA polymerases: strategies for mutagenesis and for mutational avoidance | Q36099918 | ||
| Directed evolution of a fucosidase from a galactosidase by DNA shuffling and screening | Q36137488 | ||
| Drug concentration heterogeneity facilitates the evolution of drug resistance. | Q36312295 | ||
| Search strategies for applied molecular evolution | Q36707872 | ||
| High MHC diversity maintained by balancing selection in an otherwise genetically monomorphic mammal | Q37073834 | ||
| Dynamics of HIV-1 recombination in its natural target cells | Q37356815 | ||
| The evolution of genetic diversity | Q39289486 | ||
| Game theory and the evolution of behaviour | Q39289491 | ||
| Genome organization, natural genetic engineering and adaptive mutation | Q41379575 | ||
| Codon bias and plasticity in immunoglobulins | Q44868378 | ||
| THE EVOLUTIONARILY STABLE PHENOTYPE DISTRIBUTION IN A RANDOM ENVIRONMENT. | Q44872772 | ||
| EVOLUTIONARY ADAPTATION TO TEMPERATURE. III. ADAPTATION OF ESCHERICHIA COLI TO A TEMPORALLY VARYING ENVIRONMENT. | Q46002529 | ||
| Strategies for the in vitro evolution of protein function: enzyme evolution by random recombination of improved sequences | Q46855416 | ||
| Towards a general theory of adaptive walks on rugged landscapes | Q47593883 | ||
| PERSPECTIVE: COMPLEX ADAPTATIONS AND THE EVOLUTION OF EVOLVABILITY. | Q51606245 | ||
| The evolution of evolvability in genetic linkage patterns | Q52018523 | ||
| Mutator dynamics in fluctuating environments. | Q52043835 | ||
| Perspective: Complex Adaptations and the Evolution of Evolvability | Q56432056 | ||
| Evolving evolvability | Q59090104 | ||
| Sequence space localization in the immune system response to vaccination and disease | Q73844607 | ||
| DNA polymerases in immunity: profiting from errors | Q73934002 | ||
| Genetics. Can organisms speed their own evolution? | Q73992566 | ||
| How the genome readies itself for evolution | Q77292572 | ||
| Designing drugs against heterogeneous targets | Q77377626 | ||
| Diversity and extinction in a lattice model of a population with fluctuating environment | Q77994401 | ||
| Salt wars | Q95823236 | ||
| P433 | issue | 32 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 11531-11536 | |
| P577 | publication date | 2004-08-02 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Evolvability is a selectable trait | |
| P478 | volume | 101 |
| Q53093660 | A model of genetic search for beneficial mutations: estimating the constructive capacities of mutagenesis. |
| Q41823343 | A multi-scale model for correlation in B cell VDJ usage of zebrafish |
| Q37825464 | Adaptation of cells to new environments |
| Q38892717 | Alice in microbes' land: adaptations and counter-adaptations of vector-borne parasitic protozoa and their hosts. |
| Q33326227 | Amino acid alphabet size in protein evolution experiments: better to search a small library thoroughly or a large library sparsely? |
| Q36369411 | An analogy between the evolution of drug resistance in bacterial communities and malignant tissues |
| Q37998201 | Are humans increasing bacterial evolvability? |
| Q21563605 | Balancing robustness and evolvability |
| Q34311852 | Biophysics of protein evolution and evolutionary protein biophysics |
| Q27480938 | Collective properties of evolving molecular quasispecies |
| Q39667409 | Comparative genome biology of a serogroup B carriage and disease strain supports a polygenic nature of meningococcal virulence |
| Q35634868 | Complete and SOS-mediated response of Staphylococcus aureus to the antibiotic ciprofloxacin |
| Q47561894 | Computing the Extended Synthesis: Mapping the Dynamics and Conceptual Structure of the Evolvability Research Front |
| Q30838661 | Control of finite critical behaviour in a small-scale social system. |
| Q36961674 | Controlling mutation: intervening in evolution as a therapeutic strategy |
| Q28675843 | Cortical plasticity within and across lifetimes: how can development inform us about phenotypic transformations? |
| Q28728020 | Criticality is an emergent property of genetic networks that exhibit evolvability |
| Q21131620 | Crossing the line: selection and evolution of virulence traits |
| Q28252644 | Do we need an extended evolutionary synthesis? |
| Q43136211 | Drug-resistant HIV-1 protease regains functional dynamics through cleavage site coevolution. |
| Q42566761 | Dynamics of gene duplication and transposons in microbial genomes following a sudden environmental change |
| Q22065653 | EVOLUTION OF EVOLVABILITY IN A DEVELOPMENTAL MODEL |
| Q33755448 | Eco-evolutionary dynamics, coding structure and the information threshold |
| Q39789176 | Effects of population size and mutation rate on the evolution of mutational robustness |
| Q37100886 | Emergence of species in evolutionary "simulated annealing". |
| Q34533327 | Environmental noise, genetic diversity and the evolution of evolvability and robustness in model gene networks |
| Q33860371 | Escherichia coli rpoB mutants have increased evolvability in proportion to their fitness defects |
| Q37339473 | Evolution and evolvability: celebrating Darwin 200. |
| Q28742283 | Evolution of H3N2 influenza virus in a guinea pig model |
| Q82600043 | Evolution of adaptive phenotypic variation patterns by direct selection for evolvability |
| Q28749934 | Evolution of gene regulatory networks by fluctuating selection and intrinsic constraints |
| Q31095701 | Evolution of microbes and viruses: a paradigm shift in evolutionary biology? |
| Q42074747 | Evolution: life has evolved to evolve: comment on "How life changes itself: the Read-Write (RW) genome" by James Shapiro |
| Q39033734 | Evolutionary Connectionism: Algorithmic Principles Underlying the Evolution of Biological Organisation in Evo-Devo, Evo-Eco and Evolutionary Transitions |
| Q36576233 | Evolutionary consequences of antibiotic use for the resistome, mobilome and microbial pangenome |
| Q35960653 | Evolutionary origins of invasive populations |
| Q28473999 | Evolutionary patterning: a novel approach to the identification of potential drug target sites in Plasmodium falciparum |
| Q40418774 | Evolvability Tradeoffs in Emergent Digital Replicators |
| Q58650569 | Evolvability and Speed of Evolutionary Algorithms in Light of Recent Developments in Biology |
| Q40778258 | Evolvability and single-genotype fluctuation in phenotypic properties: a simple heteropolymer model |
| Q31116484 | Evolvability is inevitable: increasing evolvability without the pressure to adapt |
| Q35867457 | Evolvability of an Optimal Recombination Rate |
| Q90414037 | Evolving generalists in switching rugged landscapes |
| Q34739570 | Experimental evolution: experimental evolution and evolvability |
| Q24630945 | Exploring protein fitness landscapes by directed evolution |
| Q38980350 | Genetic drift, selection and the evolution of the mutation rate |
| Q28703571 | Genotypic but not phenotypic historical contingency revealed by viral experimental evolution |
| Q49767833 | Glassy dynamics in the adaptive immune response prevents autoimmune disease |
| Q51935923 | Guidelines: From artificial evolution to computational evolution: a research agenda. |
| Q51697895 | Is evolvability evolvable? |
| Q36150828 | MRSA--what is it, and how do we deal with the problem? |
| Q38053191 | Mechanisms and selection of evolvability: experimental evidence. |
| Q36358076 | Migration and horizontal gene transfer divide microbial genomes into multiple niches. |
| Q56957525 | Mutant spectra in virus behavior |
| Q33651160 | Mutation Size Optimizes Speciation in an Evolutionary Model |
| Q51327741 | Mutation rate evolution in replicator dynamics. |
| Q21563565 | Network hubs buffer environmental variation in Saccharomyces cerevisiae |
| Q28742906 | Neural mechanisms underlying the evolvability of behaviour |
| Q33495538 | On the accessibility of adaptive phenotypes of a bacterial metabolic network |
| Q90138643 | Penicillin Trunk Injection Affects Bacterial Community Structure in Citrus Trees |
| Q26824904 | Phenoptosis, another specialized neologism, or the mark of a widespread revolution? |
| Q26796680 | Primordial germ cells: the first cell lineage or the last cells standing? |
| Q28254236 | Prions as adaptive conduits of memory and inheritance |
| Q30376087 | Protein dynamism and evolvability. |
| Q24546311 | Protein stability promotes evolvability |
| Q36482021 | Quantification of ortholog losses in insects and vertebrates. |
| Q36756215 | Quasispecies and its impact on viral hepatitis |
| Q48110822 | Quasispecies and virus. |
| Q35771458 | Quasispecies theory for evolution of modularity. |
| Q42408491 | Quasispecies theory for finite populations |
| Q28541382 | Robustness and evolvability of the human signaling network |
| Q24657364 | Robustness and evolvability: a paradox resolved |
| Q34600039 | SELECTIVE ADVANTAGE OF RECOMBINATION IN EVOLVING PROTEIN POPULATIONS: A LATTICE MODEL STUDY. |
| Q51729117 | Sexual reproduction reshapes the genetic architecture of digital organisms. |
| Q47972691 | Sexually dimorphic levels of color trait integration and the resolution of sexual conflict in Lake Malawi cichlids |
| Q38567297 | Something Old, Something New: Conserved Enzymes and the Evolution of Novelty in Plant Specialized Metabolism. |
| Q47948410 | Spontaneous emergence of modularity in a model of evolving individuals and in real networks |
| Q34590756 | Statistical Mechanics of Integral Membrane Protein Assembly |
| Q33934382 | Suppression of viral infectivity through lethal defection |
| Q28295483 | The 'evolvability' of promiscuous protein functions |
| Q28648024 | The emergence of modularity in biological systems |
| Q80953721 | The evolution of evolution |
| Q22066346 | The frailty of adaptive hypotheses for the origins of organismal complexity |
| Q39217959 | The frequency of fitness peak shifts is increased at expanding range margins due to mutation surfing |
| Q35362334 | The lower bound to the evolution of mutation rates |
| Q37995258 | Theoretical aspects of immunity. |
| Q39740809 | Tradeoff between short-term and long-term adaptation in a changing environment |
| Q28710587 | Transposable elements and viruses as factors in adaptation and evolution: an expansion and strengthening of the TE-Thrust hypothesis |
| Q33612170 | Variable mutation rates as an adaptive strategy in replicator populations |
| Q25256392 | Various hypotheses on MHC evolution suggested by the concerted evolution of CD94L and MHC class Ia molecules |
| Q35941090 | Varying environments can speed up evolution |
| Q33889347 | Virulence evolution of the human pathogen Neisseria meningitidis by recombination in the core and accessory genome |
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