scholarly article | Q13442814 |
P50 | author | Paulo R.A. Campos | Q58129389 |
P2093 | author name string | Sandro M Reia | |
P2860 | cites work | Predictability of evolutionary trajectories in fitness landscapes | Q21145317 |
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Molecular Evolution Over the Mutational Landscape | Q22064602 | ||
The Distribution of Fitness Effects Among Beneficial Mutations | Q24543521 | ||
What can we learn from fitness landscapes? | Q26830367 | ||
Darwinian evolution can follow only very few mutational paths to fitter proteins | Q29616042 | ||
Probing evolutionary repeatability: neutral and double changes and the predictability of evolutionary adaptation | Q33411309 | ||
Evolutionary accessibility of mutational pathways | Q34005257 | ||
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The environment affects epistatic interactions to alter the topology of an empirical fitness landscape | Q34671988 | ||
From fitness landscapes to seascapes: non-equilibrium dynamics of selection and adaptation. | Q34949551 | ||
A tortoise-hare pattern seen in adapting structured and unstructured populations suggests a rugged fitness landscape in bacteria | Q35764270 | ||
Predictability of evolution depends nonmonotonically on population size | Q36535179 | ||
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Adaptation in protein fitness landscapes is facilitated by indirect paths | Q37175865 | ||
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Empirical fitness landscapes and the predictability of evolution | Q38218962 | ||
Effect of host species on the topography of fitness landscape for a plant RNA virus. | Q40599352 | ||
Epistasis and the Structure of Fitness Landscapes: Are Experimental Fitness Landscapes Compatible with Fisher's Geometric Model? | Q40725548 | ||
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The NK model of rugged fitness landscapes and its application to maturation of the immune response | Q42643980 | ||
A cross-section of the fitness landscape of dihydrofolate reductase | Q43798672 | ||
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Local Fitness Landscapes Predict Yeast Evolutionary Dynamics in Directionally Changing Environments | Q48297642 | ||
Greedy adaptive walks on a correlated fitness landscape. | Q50697020 | ||
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Adaptive walk on complex networks | Q60167634 | ||
THE LENGTH OF ADAPTIVE WALKS IS INSENSITIVE TO STARTING FITNESS IN ASPERGILLUS NIDULANS | Q63438199 | ||
Mapping a Systematic Ribozyme Fitness Landscape Reveals a Frustrated Evolutionary Network for Self-Aminoacylating RNA. | Q64940140 | ||
A simple stochastic gene substitution model | Q71016135 | ||
Analysis of a local fitness landscape with a model of the rough Mt. Fuji-type landscape: application to prolyl endopeptidase and thermolysin | Q73756242 | ||
The population genetics of adaptation: the adaptation of DNA sequences | Q74699508 | ||
Evolution in a rugged fitness landscape | Q77863377 | ||
Adaptive walks and distribution of beneficial fitness effects | Q86842003 | ||
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P433 | issue | 1 | |
P921 | main subject | statistics | Q12483 |
P304 | page(s) | 192118 | |
P577 | publication date | 2020-01-29 | |
P1433 | published in | Royal Society Open Science | Q18712516 |
P1476 | title | Analysis of statistical correlations between properties of adaptive walks in fitness landscapes | |
P478 | volume | 7 |
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