| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2007PNAS..10412801M |
| P356 | DOI | 10.1073/PNAS.0705455104 |
| P932 | PMC publication ID | 1931480 |
| P698 | PubMed publication ID | 17646644 |
| P5875 | ResearchGate publication ID | 6191351 |
| P50 | author | Thomas MacCarthy | Q108400944 |
| Aviv Bergman | Q59749994 | ||
| P2860 | cites work | On the evolution of recombination in haploids and diploids: I. Deterministic models | Q63379859 |
| Mutation-selection balance and the evolutionary advantage of sex and recombination | Q68904022 | ||
| The evolution of sex and recombination in a varying environment | Q70503881 | ||
| A general model for the evolution of recombination | Q71859154 | ||
| On the evolution of epistasis I: diploids under selection | Q81610040 | ||
| Why have sex? The population genetics of sex and recombination | Q22121967 | ||
| Modification of linkage intensity by natural selection | Q24533341 | ||
| Waddington's canalization revisited: developmental stability and evolution | Q24533552 | ||
| Systematic yeast synthetic lethal and synthetic dosage lethal screens identify genes required for chromosome segregation | Q27934377 | ||
| Systematic genetic analysis with ordered arrays of yeast deletion mutants | Q28131618 | ||
| Evolution of digital organisms at high mutation rates leads to survival of the flattest | Q28207333 | ||
| Genome complexity, robustness and genetic interactions in digital organisms. | Q33871822 | ||
| Deleterious mutations and the evolution of sexual reproduction | Q34164458 | ||
| On the evolutionary effect of recombination | Q34235292 | ||
| Sexual reproduction selects for robustness and negative epistasis in artificial gene networks | Q34498906 | ||
| Dependence of epistasis on environment and mutation severity as revealed by in silico mutagenesis of phage t7. | Q34614741 | ||
| Interactome modeling | Q36069223 | ||
| Evolution of recombination in a constant environment | Q36403048 | ||
| More on selection for and against recombination | Q37952264 | ||
| The evolution of epistasis and the advantage of recombination in populations of bacteriophage T4 | Q41055566 | ||
| Deleterious mutations, variable epistatic interactions, and the evolution of recombination. | Q41486670 | ||
| The effect of linkage on directional selection | Q42137856 | ||
| Sexual reproduction reshapes the genetic architecture of digital organisms. | Q51729117 | ||
| Selection for linkage modification. I. Random mating populations. | Q52969891 | ||
| Some Genetic Aspects of Sex | Q56235384 | ||
| Deleterious mutations as an evolutionary factor: 1. The advantage of recombination | Q56341012 | ||
| CANALIZATION OF DEVELOPMENT AND THE INHERITANCE OF ACQUIRED CHARACTERS | Q59064935 | ||
| Canalization of Development and Genetic Assimilation of Acquired Characters | Q59065949 | ||
| P433 | issue | 31 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | co-evolution | Q208841 |
| P304 | page(s) | 12801-6 | |
| P577 | publication date | 2007-07-31 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Coevolution of robustness, epistasis, and recombination favors asexual reproduction | |
| P478 | volume | 104 |
| Q51870899 | A comparison of sexual and asexual replication strategies in a simplified model based on the yeast life cycle. |
| Q51174954 | A history of phenotypic plasticity accelerates adaptation to a new environment. |
| Q36976911 | An Evolving Genetic Architecture Interacts with Hill-Robertson Interference to Determine the Benefit of Sex. |
| Q28748265 | Biological species is the only possible form of existence for higher organisms: the evolutionary meaning of sexual reproduction |
| Q33772865 | Differential regulation drives plasticity in sex determination gene networks |
| Q37397493 | Effects of recombination on complex regulatory circuits |
| Q35113485 | Epigenetics decouples mutational from environmental robustness. Did it also facilitate multicellularity? |
| Q46880235 | Evolution of aging: individual life history trade-offs and population heterogeneity account for mortality patterns across species. |
| Q39435464 | Female mating preferences determine system-level evolution in a gene network model |
| Q51272308 | In silico evolution of gene cooption in pattern-forming gene networks. |
| Q34341565 | Mixed infections and hybridisation in monogenean parasites |
| Q38287802 | Modeling the evolution of complex genetic systems: the gene network family tree |
| Q33752657 | On the classification of epistatic interactions |
| Q57272349 | Selection for distinct gene expression properties favours the evolution of mutational robustness in gene regulatory networks |
| Q37768766 | Simple genomes, complex interactions: epistasis in RNA virus |
| Q24649377 | Survival of the sparsest: robust gene networks are parsimonious |
| Q51051648 | The effects of recombination on phenotypic exploration and robustness in evolution. |
| Q37096331 | Using evolutionary computations to understand the design and evolution of gene and cell regulatory networks |
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