| scholarly article | Q13442814 |
| P50 | author | Guillermo Rodrigo | Q63375356 |
| P2093 | author name string | Santiago F Elena | |
| Guillermo P Bernet | |||
| Silvia Ambrós | |||
| Héctor Cervera | |||
| P2860 | cites work | Distribution of fitness effects caused by single-nucleotide substitutions in bacteriophage f1 | Q22065129 |
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| Arabidopsis VQ MOTIF-CONTAINING PROTEIN29 represses seedling deetiolation by interacting with PHYTOCHROME-INTERACTING FACTOR1. | Q50478484 | ||
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| Experimental evolution of an emerging plant virus in host genotypes that differ in their susceptibility to infection | Q31162373 | ||
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| Virus adaptation by manipulation of host's gene expression | Q33342799 | ||
| Adenosine kinase contributes to cytokinin interconversion in Arabidopsis | Q33351893 | ||
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| Interaction of the trans-frame potyvirus protein P3N-PIPO with host protein PCaP1 facilitates potyvirus movement | Q34236627 | ||
| A meta-analysis reveals the commonalities and differences in Arabidopsis thaliana response to different viral pathogens | Q34342104 | ||
| Respective contributions of Arabidopsis DCL2 and DCL4 to RNA silencing. | Q34446663 | ||
| The AGAMOUS-LIKE 20 MADS domain protein integrates floral inductive pathways in Arabidopsis | Q35203368 | ||
| The Sol Genomics Network (SGN)--from genotype to phenotype to breeding | Q35254307 | ||
| Formation of Potato Virus A-Induced RNA Granules and Viral Translation Are Interrelated Processes Required for Optimal Virus Accumulation | Q35862238 | ||
| Distribution of mutational fitness effects and of epistasis in the 5' untranslated region of a plant RNA virus | Q35862886 | ||
| The Mutational Robustness of Influenza A Virus | Q36116006 | ||
| Translation initiation factors: a weak link in plant RNA virus infection | Q36339166 | ||
| Quantitation of relative fitness and great adaptability of clonal populations of RNA viruses | Q36693778 | ||
| Systems biology and the host response to viral infection | Q37027151 | ||
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| HIV-1 reverse transcriptase inhibitor resistance mutations and fitness: a view from the clinic and ex vivo. | Q37090735 | ||
| Connecting viral with cellular interactomes | Q37562514 | ||
| Virus-host interactomes and global models of virus-infected cells. | Q37920151 | ||
| Viral fitness: definitions, measurement, and current insights | Q38044156 | ||
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| The Arabidopsis PLAT domain protein1 promotes abiotic stress tolerance and growth in tobacco. | Q39090574 | ||
| Congruent evolution of fitness and genetic robustness in vesicular stomatitis virus | Q39194772 | ||
| Predicting the Stability of Homologous Gene Duplications in a Plant RNA Virus | Q39412855 | ||
| Comparative host gene transcription by microarray analysis early after infection of the Huh7 cell line by severe acute respiratory syndrome coronavirus and human coronavirus 229E. | Q40429766 | ||
| Adaptability costs in immune escape variants of vesicular stomatitis virus | Q40487554 | ||
| Transcriptomic changes in Nicotiana benthamiana plants inoculated with the wild-type or an attenuated mutant of Tobacco vein banding mosaic virus. | Q40503032 | ||
| Effect of host species on the topography of fitness landscape for a plant RNA virus. | Q40599352 | ||
| 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 | ||
| Viral Strain-Specific Differential Alterations in Arabidopsis Developmental Patterns. | Q40879227 | ||
| The impact of high-order epistasis in the within-host fitness of a positive-sense plant RNA virus | Q41012991 | ||
| Fitness of RNA virus decreased by Muller's ratchet | Q41211936 | ||
| NMD: nonsense-mediated defense | Q41743419 | ||
| From hypo- to hypersuppression: effect of amino acid substitutions on the RNA-silencing suppressor activity of the Tobacco etch potyvirus HC-Pro | Q41826865 | ||
| Epistasis between mutations is host-dependent for an RNA virus | Q41917089 | ||
| Fitness valleys constrain HIV-1's adaptation to its secondary chemokine coreceptor. | Q42239239 | ||
| Fitness declines in Tobacco etch virus upon serial bottleneck transfers | Q42737923 | ||
| ACTIN DEPOLYMERIZING FACTOR4 regulates actin dynamics during innate immune signaling in Arabidopsis | Q44385292 | ||
| Stability of Tobacco etch virus infectious clones in plasmid vectors | Q45378617 | ||
| A real-time RT-PCR assay for quantifying the fitness of tobacco etch virus in competition experiments | Q45410328 | ||
| Salicylic acid-mediated and RNA-silencing defense mechanisms cooperate in the restriction of systemic spread of plum pox virus in tobacco | Q45411544 | ||
| Cosuppression of RBCS3B in Arabidopsis leads to severe photoinhibition caused by ROS accumulation | Q46796211 | ||
| A core function of EDS1 with PAD4 is to protect the salicylic acid defense sector in Arabidopsis immunity. | Q48216076 | ||
| The distribution of mutational fitness effects of phage φX174 on different hosts | Q50021304 | ||
| P275 | copyright license | Creative Commons Attribution-NonCommercial 4.0 International | Q34179348 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P4510 | describes a project that uses | limma | Q112236343 |
| P433 | issue | 7 | |
| P921 | main subject | transcriptome | Q252857 |
| P304 | page(s) | 1599-1615 | |
| P577 | publication date | 2018-07-01 | |
| P1433 | published in | Molecular Biology and Evolution | Q1992656 |
| P1476 | title | Viral Fitness Correlates with the Magnitude and Direction of the Perturbation Induced in the Host's Transcriptome: The Tobacco Etch Potyvirus-Tobacco Case Study | |
| P478 | volume | 35 |
| Q100305006 | Abscisic Acid Connects Phytohormone Signaling with RNA Metabolic Pathways and Promotes an Antiviral Response that Is Evaded by a Self-Controlled RNA Virus |
| Q59351866 | Analysis of Fitness Trade-Offs in the Host Range Expansion of an RNA Virus, Tobacco Mild Green Mosaic Virus |
| Q91937627 | Evolution and ecology of plant viruses |
| Q92157108 | Identifying Early Warning Signals for the Sudden Transition from Mild to Severe Tobacco Etch Disease by Dynamical Network Biomarkers |
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