| P2093 | author name string | Darin R Rokyta | |
| | Andrew M Sackman | |
| P2860 | cites work | Two steps forward, one step back: the pleiotropic effects of favoured alleles. | Q55038485 |
| | Evolutionary adaptation of an RNA bacteriophage to the simultaneous increase in the within-host and extracellular temperatures. | Q55124363 |
| | Big-benefit mutations in a bacteriophage inhibited with heat | Q56901737 |
| | Impact of epistasis and pleiotropy on evolutionary adaptation | Q59867557 |
| | ADAPTATION AND THE COST OF COMPLEXITY | Q63918282 |
| | Evolution of thermal dependence of growth rate of Escherichia coli populations during 20,000 generations in a constant environment | Q74112263 |
| | Modularity and the cost of complexity | Q79076931 |
| | The manifold effect of selection | Q80373615 |
| | QTL mapping of freezing tolerance: links to fitness and adaptive trade-offs | Q87414136 |
| | Stability-mediated epistasis constrains the evolution of an influenza protein | Q21128791 |
| | Thermodynamic prediction of protein neutrality | Q24557480 |
| | Selective pressure causes an RNA virus to trade reproductive fitness for increased structural and thermal stability of a viral enzyme | Q30424370 |
| | How protein stability and new functions trade off | Q33332450 |
| | The population genetics of ecological specialization in evolving Escherichia coli populations | Q33922714 |
| | Epistasis between beneficial mutations and the phenotype-to-fitness Map for a ssDNA virus | Q33926816 |
| | Limits of adaptation: the evolution of selective neutrality | Q33951427 |
| | Long-term experimental evolution in Escherichia coli. IV. Targets of selection and the specificity of adaptation | Q33967274 |
| | Stability effects of mutations and protein evolvability | Q34019441 |
| | A test of evolutionary theories of senescence | Q34269168 |
| | Horizontal gene transfer and the evolution of microvirid coliphage genomes | Q34303457 |
| | The evolution of a pleiotropic fitness tradeoff in Pseudomonas fluorescens. | Q34331592 |
| | Perspective: Sign epistasis and genetic constraint on evolutionary trajectories | Q34437784 |
| | Missense meanderings in sequence space: a biophysical view of protein evolution | Q34439602 |
| | Experimental evolution of a bacteriophage virus reveals the trajectory of adaptation across a fecundity/longevity trade-off. | Q34447055 |
| | Payoffs, not tradeoffs, in the adaptation of a virus to ostensibly conflicting selective pressures | Q35294643 |
| | Are weak protein–protein interactions the general rule in capsid assembly? | Q35571355 |
| | Theoretical aspects of virus capsid assembly | Q36271909 |
| | Average time until fixation of a mutant allele in a finite population under continued mutation pressure: Studies by analytical, numerical, and pseudo-sampling methods | Q36353145 |
| | Genetic trade-offs and conditional neutrality contribute to local adaptation | Q36381473 |
| | Synergistic Pleiotropy Overrides the Costs of Complexity in Viral Adaptation | Q36429821 |
| | The genetics of adaptation for eight microvirid bacteriophages | Q37353497 |
| | Environment determines epistatic patterns for a ssDNA virus | Q37412772 |
| | The pleiotropic structure of the genotype-phenotype map: the evolvability of complex organisms. | Q37844408 |
| | The evolution of life history trade-offs in viruses | Q38236369 |
| | The emergence of performance trade-offs during local adaptation: insights from experimental evolution | Q39060561 |
| | The Kinetic and Thermodynamic Aftermath of Horizontal Gene Transfer Governs Evolutionary Recovery | Q40887946 |
| | Host proteostasis modulates influenza evolution. | Q41671786 |
| | Pleiotropy as a mechanism to stabilize cooperation | Q45095134 |
| | Weak protein-protein interactions are sufficient to drive assembly of hepatitis B virus capsids | Q45730765 |
| | To build a virus capsid. An equilibrium model of the self assembly of polyhedral protein complexes | Q45780797 |
| | Additive Phenotypes Underlie Epistasis of Fitness Effects | Q47587442 |
| | Pleiotropic scaling of gene effects and the 'cost of complexity'. | Q51691507 |
| | Hsp90 shapes protein and RNA evolution to balance trade-offs between protein stability and aggregation. | Q53820041 |
| P433 | issue | 1 | |
| P921 | main subject | bacteriophage | Q165028 |
| P304 | page(s) | 267-276 | |
| P577 | publication date | 2019-02-26 | |
| P1433 | published in | Genetics | Q3100575 |
| P1476 | title | No Cost of Complexity in Bacteriophages Adapting to a Complex Environment | |
| P478 | volume | 212 | |