scholarly article | Q13442814 |
P50 | author | Michael A. Brockhurst | Q41786971 |
Britt Koskella | Q42203896 | ||
P2860 | cites work | Ongoing phenotypic and genomic changes in experimental coevolution of RNA bacteriophage Qβ and Escherichia coli | Q21563384 |
The Beagle in a bottle | Q22122206 | ||
Multiple reciprocal adaptations and rapid genetic change upon experimental coevolution of an animal host and its microbial parasite | Q24623000 | ||
Running with the Red Queen: host-parasite coevolution selects for biparental sex | Q24630269 | ||
Antagonistic coevolution between a bacterium and a bacteriophage | Q24670125 | ||
Is host-schistosome coevolution going anywhere? | Q27480869 | ||
Statistical structure of host-phage interactions | Q28390274 | ||
Butterflies and Plants: A Study in Coevolution | Q29012915 | ||
Phylogeny, ecology, and the coupling of comparative and experimental approaches | Q29400122 | ||
Adaptation varies through space and time in a coevolving host-parasitoid interaction | Q31120700 | ||
Epistatic interactions alter dynamics of multilocus gene-for-gene coevolution | Q33305351 | ||
Host-parasite 'Red Queen' dynamics archived in pond sediment | Q33305626 | ||
The evolution of host-parasite range. | Q33577257 | ||
Rapid evolution of stability and productivity at the origin of a microbial mutualism | Q33719701 | ||
Adaptation in a mouse colony monoassociated with Escherichia coli K-12 for more than 1,000 days | Q33983424 | ||
Influence of co-evolution with a parasite, Nosema whitei, and population size on recombination rates and fitness in the red flour beetle, Tribolium castaneum | Q34109602 | ||
When does coevolution promote diversification? | Q34143896 | ||
Antagonistic experimental coevolution with a parasite increases host recombination frequency. | Q34157895 | ||
The role of parasites in sympatric and allopatric host diversification | Q34162758 | ||
Repeatability and contingency in the evolution of a key innovation in phage lambda | Q34250057 | ||
Species interactions alter evolutionary responses to a novel environment | Q34276938 | ||
Evolutionary genomics of host-use in bifurcating demes of RNA virus phi-6 | Q34389949 | ||
Pleiotropic costs of niche expansion in the RNA bacteriophage phi 6. | Q34587807 | ||
Coevolution with viruses drives the evolution of bacterial mutation rates. | Q34722064 | ||
Experimental evolution of field populations of Daphnia magna in response to parasite treatment. | Q34776715 | ||
Evaluation of a cocktail of three bacteriophages for biocontrol of Escherichia coli O157:H7. | Q34777447 | ||
Host-parasite coevolution and patterns of adaptation across time and space | Q34811139 | ||
Evolution of host resistance and trade-offs between virulence and transmission potential in an obligately killing parasite. | Q35001276 | ||
Rapid diversification of coevolving marine Synechococcus and a virus | Q35849681 | ||
A synthesis of experimental work on parasite local adaptation | Q36820039 | ||
Temporal dynamics of outcrossing and host mortality rates in host-pathogen experimental coevolution | Q36990499 | ||
Time-shift experiments as a tool to study antagonistic coevolution | Q37388145 | ||
The host selects mucosal and luminal associations of coevolved gut microorganisms: a novel concept | Q37848454 | ||
Virus-host swinging party in the oceans: Incorporating biological complexity into paradigms of antagonistic coexistence | Q38039109 | ||
Coevolution of bacteriophage PP01 and Escherichia coli O157:H7 in continuous culture. | Q39742861 | ||
Bacteria-phage antagonistic coevolution in soil | Q39765326 | ||
Altering and assessing persistence of genetically modified E. coli MG1655 in the large bowel | Q39963407 | ||
Coevolving parasites enhance the diversity-decreasing effect of dispersal. | Q41786929 | ||
Antagonistic coevolution accelerates molecular evolution | Q41813977 | ||
Effects of sequential and simultaneous applications of bacteriophages on populations of Pseudomonas aeruginosa in vitro and in wax moth larvae. | Q42012908 | ||
How does spatial dispersal network affect the evolution of parasite local adaptation? | Q43753552 | ||
Time-shift experiments and patterns of adaptation across time and space | Q44052146 | ||
Bacteria-phage coevolution and the emergence of generalist pathogens. | Q44278459 | ||
Antagonistic coevolution accelerates the evolution of reproductive isolation in tribolium castaneum | Q44323852 | ||
Evolution. Sex, death, and the Red Queen. | Q50529966 | ||
Evidence for negative frequency-dependent selection during experimental coevolution of a freshwater snail and a sterilizing trematode. | Q50607526 | ||
Advice of the rose: experimental coevolution of a trematode parasite and its snail host. | Q50705212 | ||
The costs of evolving resistance in heterogeneous parasite environments. | Q51577089 | ||
Pulsed-resource dynamics constrain the evolution of predator-prey interactions. | Q51602905 | ||
Antagonistic coevolution with parasites maintains host genetic diversity: an experimental test. | Q51624101 | ||
Availability of prey resources drives evolution of predator-prey interaction. | Q51689610 | ||
Genetic basis of infectivity evolution in a bacteriophage. | Q53451276 | ||
Spatial heterogeneity and the stability of host-parasite coexistence. | Q53600065 | ||
The effect of migration on local adaptation in a coevolving host-parasite system. | Q53614683 | ||
The effect of a bacteriophage on diversification of the opportunistic bacterial pathogen, Pseudomonas aeruginosa. | Q53618798 | ||
The effect of spatial heterogeneity and parasites on the evolution of host diversity. | Q53643025 | ||
Modelling infection as a two-step process combining gene-for-gene and matching-allele genetics. | Q53939212 | ||
EPISTATIC INTERACTIONS CAN LOWER THE COST OF RESISTANCE TO MULTIPLE CONSUMERS. | Q54106778 | ||
Experimental evolution of resistance in Paramecium caudatum against the bacterial parasite Holospora undulata | Q56899010 | ||
Antagonistic coevolution with parasites increases the cost of host deleterious mutations | Q56899307 | ||
TWO-STEP INFECTION PROCESSES CAN LEAD TO COEVOLUTION BETWEEN FUNCTIONALLY INDEPENDENT INFECTION AND RESISTANCE PATHWAYS | Q58493809 | ||
Population mixing accelerates coevolution | Q58493846 | ||
Coevolution of Escherichia coli and bacteriophages in chemostat culture | Q69904732 | ||
The phylogeny of the nematode family Metastrongylidae Leiper, 1909; a correlation of host and symbiote evolution | Q80294144 | ||
A meta-analysis of factors affecting local adaptation between interacting species | Q80515594 | ||
Abiotic heterogeneity drives parasite local adaptation in coevolving bacteria and phages | Q82548730 | ||
Host-parasite local adaptation after experimental coevolution of Caenorhabditis elegans and its microparasite Bacillus thuringiensis | Q83392280 | ||
Host-parasite coevolutionary arms races give way to fluctuating selection | Q83973253 | ||
Effects of predation on real-time host-parasite coevolutionary dynamics | Q87380458 | ||
WHEN IS IT COEVOLUTION? | Q88207596 | ||
P433 | issue | 6 | |
P921 | main subject | co-evolution | Q208841 |
biological interaction | Q1823478 | ||
P1104 | number of pages | 9 | |
P304 | page(s) | 367-375 | |
P577 | publication date | 2013-03-20 | |
P1433 | published in | Trends in Ecology & Evolution | Q15265725 |
P1476 | title | Experimental coevolution of species interactions | |
P478 | volume | 28 |
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Q55129737 | Adaptation of a Chytrid Parasite to Its Cyanobacterial Host Is Hampered by Host Intraspecific Diversity. |
Q35599204 | Analysis of whole genome sequencing for the Escherichia coli O157:H7 typing phages. |
Q47103123 | Back to the future in a petri dish: Origin and impact of resurrected microbes in natural populations |
Q56929291 | Bacteria-Phage Antagonistic Coevolution and the Implications for Phage Therapy |
Q34637653 | Bacteria-phage coevolution as a driver of ecological and evolutionary processes in microbial communities |
Q90196978 | Bacterial predator-prey coevolution accelerates genome evolution and selects on virulence-associated prey defences |
Q41443428 | Characterization of a single mutation in TraQ in a strain of Escherichia coli partially resistant to Qβ infection |
Q40445516 | Co-evolutionary dynamics between a defensive microbe and a pathogen driven by fluctuating selection. |
Q45950566 | Co-evolutionary dynamics between public good producers and cheats in the bacterium Pseudomonas aeruginosa. |
Q26741984 | Coevolution of parasitic fungi and insect hosts |
Q90571841 | Community coalescence: an eco-evolutionary perspective |
Q39851045 | Conflicting attachment and the growth of bipartite networks. |
Q57169429 | Construction and Characterization of Synthetic Bacterial Community for Experimental Ecology and Evolution |
Q46823069 | Consumer co-evolution as an important component of the eco-evolutionary feedback. |
Q34002414 | Contrasted coevolutionary dynamics between a bacterial pathogen and its bacteriophages |
Q51150216 | Cross-Resistance: A Consequence of Bi-partite Host-Parasite Coevolution. |
Q36025435 | Daphnia parasite dynamics across multiple Caullerya epidemics indicate selection against common parasite genotypes. |
Q59350458 | Diagnostic Potential and Interactive Dynamics of the Colorectal Cancer Virome |
Q45338137 | Eco-evolutionary dynamics in a coevolving host-virus system |
Q51354804 | Environmental fluctuations restrict eco-evolutionary dynamics in predator-prey system. |
Q38273506 | Evolution of spatially structured host-parasite interactions. |
Q46250203 | Evolution on the bright side of life: microorganisms and the evolution of mutualism |
Q27468725 | Experimental Evolution as an Underutilized Tool for Studying Beneficial Animal–Microbe Interactions |
Q38683209 | Experimental evolution and the dynamics of adaptation and genome evolution in microbial populations |
Q36171957 | Experimental evolution of rhizobia may lead to either extra- or intracellular symbiotic adaptation depending on the selection regime. |
Q38734703 | Fifty important research questions in microbial ecology. |
Q57658935 | Fifty years after Ehrlich and Raven, is there support for plant-insect coevolution as a major driver of species diversification? |
Q46665970 | Fifty years of co-evolution and beyond: integrating co-evolution from molecules to species |
Q26740325 | From the Lab to the Farm: An Industrial Perspective of Plant Beneficial Microorganisms |
Q35540624 | Gene-specific selective sweeps in bacteria and archaea caused by negative frequency-dependent selection |
Q53688475 | Genome-Wide Detection of Genes Under Positive Selection in Worldwide Populations of the Barley Scald Pathogen. |
Q99603753 | Genomic signatures of coevolution between non-model mammals and parasitic roundworms |
Q90386378 | Geographical separation and physiology drive differentiation of microbial communities of two discrete populations of the bat Leptonycteris yerbabuenae |
Q26750596 | Harnessing the Power of Defensive Microbes: Evolutionary Implications in Nature and Disease Control |
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Q26751047 | Host behaviour-parasite feedback: an essential link between animal behaviour and disease ecology |
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Q21145699 | Host-Pathogen Coevolution: The Selective Advantage of Bacillus thuringiensis Virulence and Its Cry Toxin Genes |
Q98829711 | Host-parasite co-evolution and its genomic signature |
Q38153024 | Insect host-parasite coevolution in the light of experimental evolution. |
Q38692643 | Integrating Competition for Food, Hosts, or Mates via Experimental Evolution. |
Q46581210 | Introduction: microbial local adaptation: insights from natural populations, genomics and experimental evolution |
Q35046833 | Lotka-Volterra dynamics kills the Red Queen: population size fluctuations and associated stochasticity dramatically change host-parasite coevolution |
Q94588271 | Measuring Coevolutionary Dynamics in Species-Rich Communities |
Q92141659 | Microbial Experimental Evolution - a proving ground for evolutionary theory and a tool for discovery |
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Q90376461 | Model Microbial Consortia as Tools for Understanding Complex Microbial Communities |
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Q91673375 | Molecular evolution in immune genes across the avian tree of life |
Q39289097 | Nematode-bacteria mutualism: Selection within the mutualism supersedes selection outside of the mutualism |
Q40379075 | Network structure and local adaptation in co-evolving bacteria-phage interactions |
Q41085653 | No evidence for adaptation to local rhizobial mutualists in the legume Medicago lupulina. |
Q35623003 | Phyllostomid bat microbiome composition is associated to host phylogeny and feeding strategies |
Q51276024 | Phylogenetic framework for coevolutionary studies: a compass for exploring jungles of tangled trees. |
Q92460632 | Population genetics of ectoparasitic mites suggest arms race with honeybee hosts |
Q54226446 | Population size changes and selection drive patterns of parallel evolution in a host-virus system. |
Q36394735 | Prophage as a genetic reservoir: Promoting diversity and driving innovation in the host community |
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Q37268119 | Rapid evolution of microbe-mediated protection against pathogens in a worm host |
Q40759453 | Rapid multiple-level coevolution in experimental populations of yeast killer and nonkiller strains |
Q51872381 | Rapidly fluctuating environments constrain coevolutionary arms races by impeding selective sweeps. |
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Q35837635 | Testing Local Adaptation in a Natural Great Tit-Malaria System: An Experimental Approach |
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