| scholarly article | Q13442814 |
| P50 | author | Santiago F. Elena | Q30513222 |
| P2093 | author name string | Jasna Lalić | |
| Héctor Cervera | |||
| P2860 | cites work | Distribution of Fitness and Virulence Effects Caused by Single-Nucleotide Substitutions in Tobacco Etch Virus | Q22065440 |
| Viral mutation rates | Q24611162 | ||
| The causes of epistasis | Q26860873 | ||
| Cost of host radiation in an RNA virus | Q27473196 | ||
| Environmental changes bridge evolutionary valleys | Q28272911 | ||
| Adaptive Landscape by Environment Interactions Dictate Evolutionary Dynamics in Models of Drug Resistance | Q28552806 | ||
| Experimental evolution of an emerging plant virus in host genotypes that differ in their susceptibility to infection | Q31162373 | ||
| Virus adaptation by manipulation of host's gene expression | Q33342799 | ||
| Host responses in life-history traits and tolerance to virus infection in Arabidopsis thaliana | Q33360270 | ||
| On the classification of epistatic interactions | Q33752657 | ||
| Distributions of epistasis in microbes fit predictions from a fitness landscape model. | Q54444950 | ||
| Pervasive joint influence of epistasis and plasticity on mutational effects in Escherichia coli. | Q54508295 | ||
| Analysis of a local fitness landscape with a model of the rough Mt. Fuji-type landscape: application to prolyl endopeptidase and thermolysin | Q73756242 | ||
| Fitness epistasis and constraints on adaptation in a human immunodeficiency virus type 1 protein region | Q33853183 | ||
| Contribution of individual random mutations to genotype-by-environment interactions in Escherichia coli | Q33944549 | ||
| Effect of host species on the distribution of mutational fitness effects for an RNA virus | Q34085636 | ||
| Reciprocal sign epistasis is a necessary condition for multi-peaked fitness landscapes. | Q34155513 | ||
| Exploring the complexity of the HIV-1 fitness landscape | Q34192888 | ||
| Why do RNA viruses recombine? | Q34197204 | ||
| Perspective: Sign epistasis and genetic constraint on evolutionary trajectories | Q34437784 | ||
| Host alternation of chikungunya virus increases fitness while restricting population diversity and adaptability to novel selective pressures | Q34485363 | ||
| Pleiotropic costs of niche expansion in the RNA bacteriophage phi 6. | Q34587807 | ||
| Designing antibiotic cycling strategies by determining and understanding local adaptive landscapes | Q34589777 | ||
| The environment affects epistatic interactions to alter the topology of an empirical fitness landscape | Q34671988 | ||
| Fisher's geometric model with a moving optimum | Q34851593 | ||
| From fitness landscapes to seascapes: non-equilibrium dynamics of selection and adaptation. | Q34949551 | ||
| Should evolutionary geneticists worry about higher-order epistasis? | Q35035921 | ||
| Role of pleiotropy during adaptation of TEM-1 β-lactamase to two novel antibiotics | Q35236711 | ||
| Epistasis between deleterious mutations and the evolution of recombination | Q36751300 | ||
| Towards an integrated molecular model of plant-virus interactions | Q38047076 | ||
| Empirical fitness landscapes and the predictability of evolution | Q38218962 | ||
| Emerging viruses: why they are not jacks of all trades? | Q38281702 | ||
| Fitness of multidimensional phenotypes in dynamic adaptive landscapes | Q38540033 | ||
| Incongruent fitness landscapes, not tradeoffs, dominate the adaptation of vesicular stomatitis virus to novel host types | Q39747184 | ||
| Plum Pox Virus 6K1 Protein Is Required for Viral Replication and Targets the Viral Replication Complex at the Early Stage of Infection | Q39932740 | ||
| Evolutionary genomics of host adaptation in vesicular stomatitis virus | Q40000526 | ||
| Measuring epistasis in fitness landscapes: The correlation of fitness effects of mutations. | Q40015337 | ||
| The transcriptomics of an experimentally evolved plant-virus interaction. | Q40626916 | ||
| Adaptation of tobacco etch potyvirus to a susceptible ecotype of Arabidopsis thaliana capacitates it for systemic infection of resistant ecotypes | Q40863118 | ||
| The impact of high-order epistasis in the within-host fitness of a positive-sense plant RNA virus | Q41012991 | ||
| Evaluating the within-host fitness effects of mutations fixed during virus adaptation to different ecotypes of a new host | Q41119821 | ||
| Transcript Profiling of Different Arabidopsis thaliana Ecotypes in Response to Tobacco etch potyvirus Infection | Q41912583 | ||
| Epistasis between mutations is host-dependent for an RNA virus | Q41917089 | ||
| The rate and spectrum of spontaneous mutations in a plant RNA virus | Q42095971 | ||
| Fitness valleys constrain HIV-1's adaptation to its secondary chemokine coreceptor. | Q42239239 | ||
| Estimation of the in vivo recombination rate for a plant RNA virus | Q42247550 | ||
| A cross-section of the fitness landscape of dihydrofolate reductase | Q43798672 | ||
| An adaptive walk by human immunodeficiency virus type 1 through a fluctuating fitness landscape | Q45067155 | ||
| Multihost experimental evolution of a plant RNA virus reveals local adaptation and host-specific mutations | Q45359774 | ||
| Stability of Tobacco etch virus infectious clones in plasmid vectors | Q45378617 | ||
| The rate of multi-step evolution in Moran and Wright-Fisher populations. | Q51543938 | ||
| Understanding specialism when the Jack of all trades can be the master of all. | Q51544809 | ||
| The pleiotropic cost of host-specialization in Tobacco etch potyvirus. | Q51679705 | ||
| Growth stage-based phenotypic analysis of Arabidopsis: a model for high throughput functional genomics in plants. | Q52132695 | ||
| Efficient escape from local optima in a highly rugged fitness landscape by evolving RNA virus populations. | Q53144970 | ||
| Modelling infection as a two-step process combining gene-for-gene and matching-allele genetics. | Q53939212 | ||
| P433 | issue | 22 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 10160-10169 | |
| P577 | publication date | 2016-10-28 | |
| P1433 | published in | Journal of Virology | Q1251128 |
| P1476 | title | Effect of Host Species on Topography of the Fitness Landscape for a Plant RNA Virus | |
| P478 | volume | 90 |
| Q90699093 | Analysis of statistical correlations between properties of adaptive walks in fitness landscapes |
| Q47552715 | Differences in adaptive dynamics determine the success of virus variants that propagate together |
| Q64112031 | Mutagenesis Scanning Uncovers Evolutionary Constraints on Tobacco Etch Potyvirus Membrane-Associated 6K2 Protein |
| Q36298674 | Strain-dependent mutational effects for Pepino mosaic virus in a natural host. |
| Q59353073 | The utility of fitness landscapes and big data for predicting evolution |
| Q52347585 | Viral fitness correlates with the magnitude and direction of the perturbation induced in the host's transcriptome: the tobacco etch potyvirus - tobacco case study. |
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