| scholarly article | Q13442814 |
| P50 | author | Eugene Koonin | Q3699974 |
| Yuri Wolf | Q59640168 | ||
| Alexander E Lobkovsky | Q114783037 | ||
| P2860 | cites work | Limits to the rate of adaptive substitution in sexual populations | Q21144916 |
| EVOLUTION OF SEXRESOLVING THE PARADOX OF SEX AND RECOMBINATION | Q22121995 | ||
| Interference among deleterious mutations favours sex and recombination in finite populations | Q22122238 | ||
| Modification of linkage intensity by natural selection | Q24533341 | ||
| The evolutionary advantage of recombination | Q24533419 | ||
| Evolvability is a selectable trait | Q24564104 | ||
| Evolvability | Q24595167 | ||
| Mutational robustness can facilitate adaptation | Q24624037 | ||
| Genomics of bacteria and archaea: the emerging dynamic view of the prokaryotic world | Q24653367 | ||
| Evidence for symmetric chromosomal inversions around the replication origin in bacteria | Q24791763 | ||
| A genomic perspective on protein families | Q27860913 | ||
| Why sex and recombination? | Q28283292 | ||
| Bacterial genome instability | Q28657639 | ||
| THE RELATION OF RECOMBINATION TO MUTATIONAL ADVANCE | Q29616118 | ||
| Genome alignment, evolution of prokaryotic genome organization, and prediction of gene function using genomic context | Q30982525 | ||
| Evolvability is inevitable: increasing evolvability without the pressure to adapt | Q31116484 | ||
| Trends in prokaryotic evolution revealed by comparison of closely related bacterial and archaeal genomes | Q33382015 | ||
| Multi-site adaptation in the presence of infrequent recombination | Q33770993 | ||
| Mutation and the evolution of recombination | Q33856660 | ||
| Genomes in turmoil: quantification of genome dynamics in prokaryote supergenomes | Q34196793 | ||
| On the evolutionary effect of recombination | Q34235292 | ||
| Large chromosomal rearrangements during a long-term evolution experiment with Escherichia coli | Q34237811 | ||
| Perspective: Sign epistasis and genetic constraint on evolutionary trajectories | Q34437784 | ||
| Estimation of prokaryotic supergenome size and composition from gene frequency distributions | Q34557295 | ||
| Selection for recombination in structured populations | Q34587456 | ||
| Horizontal gene transfer can rescue prokaryotes from Muller's ratchet: benefit of DNA from dead cells and population subdivision | Q35069053 | ||
| Expanded microbial genome coverage and improved protein family annotation in the COG database | Q35254493 | ||
| The evolution of sex and recombination in response to abiotic or coevolutionary fluctuations in epistasis | Q35757735 | ||
| Evolution of recombination in a constant environment | Q36403048 | ||
| Epistasis between deleterious mutations and the evolution of recombination | Q36751300 | ||
| ATGC: a database of orthologous genes from closely related prokaryotic genomes and a research platform for microevolution of prokaryotes | Q37202503 | ||
| Deleterious mutations, variable epistatic interactions, and the evolution of recombination. | Q41486670 | ||
| The effect of linkage on directional selection | Q42137856 | ||
| Recombination can evolve in large finite populations given selection on sufficient loci. | Q42533089 | ||
| Recombination modification in a flucturating environment | Q42974040 | ||
| The evolutionary advantage of recombination. II. Individual selection for recombination | Q42974108 | ||
| Negative epistasis between beneficial mutations in an evolving bacterial population | Q44010374 | ||
| Analytical study of the effect of recombination on evolution via DNA shuffling | Q46131767 | ||
| Clonal divergence in Escherichia coli as a result of recombination, not mutation | Q48077857 | ||
| Effect of drift, selection and recombination on the equilibrium frequency of deleterious mutations. | Q53160017 | ||
| Linkage and Recombination in Evolution | Q57337319 | ||
| Evolving evolvability | Q59090104 | ||
| THE MUTATION MATRIX AND THE EVOLUTION OF EVOLVABILITY | Q59409983 | ||
| THE MAINTENANCE OF OBLIGATE SEX IN FINITE, STRUCTURED POPULATIONS SUBJECT TO RECURRENT BENEFICIAL AND DELETERIOUS MUTATION | Q63379828 | ||
| Waiting with and without Recombination: The Time to Production of a Double Mutant | Q63379857 | ||
| Classification of hypotheses on the advantage of amphimixis | Q70503887 | ||
| A general model for the evolution of recombination | Q71859154 | ||
| The effect of linkage on limits to artificial selection | Q72951099 | ||
| The Red Queen and Fluctuating Epistasis: A Population Genetic Analysis of Antagonistic Coevolution | Q73087730 | ||
| Genetics. Can organisms speed their own evolution? | Q73992566 | ||
| Migration versus mutation in the evolution of recombination under multilocus selection | Q77149156 | ||
| Selection for recombination in small populations | Q77401068 | ||
| Diploidy, population structure, and the evolution of recombination | Q83935416 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 70-77 | |
| P577 | publication date | 2015-12-10 | |
| P1433 | published in | Genome Biology and Evolution | Q15817736 |
| P1476 | title | Evolvability of an Optimal Recombination Rate | |
| P478 | volume | 8 |
| Q36239815 | ATGC database and ATGC-COGs: an updated resource for micro- and macro-evolutionary studies of prokaryotic genomes and protein family annotation |
| Q39404926 | Benefits of a Recombination-Proficient Escherichia coli System for Adaptive Laboratory Evolution |
| Q96022876 | From molecules to populations: appreciating and estimating recombination rate variation |
| Q38656614 | Recombination-Driven Genome Evolution and Stability of Bacterial Species. |
| Q41410650 | Stronger selection can slow down evolution driven by recombination on a smooth fitness landscape. |
| Q97519283 | The Frequency of Sex: Population Genomics Reveals Differences in Recombination and Population Structure of the Aflatoxin-Producing Fungus Aspergillus flavus |
| Q38726566 | The role of recombination in evolutionary adaptation of Escherichia coli to a novel nutrient |
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