Accelerated viral dynamics in bat cell lines, with implications for zoonotic emergence |
|
Animal defenses against infectious agents: is damage control more important than pathogen control |
|
Antibody isotype analysis of malaria-nematode co-infection: problems and solutions associated with cross-reactivity |
|
Are we immune by chance? |
|
Blockade of TNF receptor 1 reduces disease severity but increases parasite transmission during Plasmodium chabaudi chabaudi infection |
|
Bottom-up regulation of malaria population dynamics in mice co-infected with lung-migratory nematodes |
|
The coevolution of virulence: tolerance in perspective |
|
Competing for blood: the ecology of parasite resource competition in human malaria-helminth co-infections. |
|
Decomposing health: tolerance and resistance to parasites in animals |
|
Demographically framing trade-offs between sensitivity and specificity illuminates selection on immunity. |
|
Disentangling the dynamical underpinnings of differences in SARS-CoV-2 pathology using within-host ecological models |
|
Dissecting the contributions of time and microbe density to variation in immune gene expression. |
|
Dynamic Patterns of Parasitism and Immunity across Host Development Influence Optimal Strategies of Resource Allocation |
|
Dynamics of a cytokine storm |
|
Early recruitment of natural CD4+ Foxp3+ Treg cells by infective larvae determines the outcome of filarial infection. |
|
Ecological rules governing helminth-microparasite coinfection |
|
The effects of living in an outdoor enclosure on hippocampal plasticity and anxiety-like behavior in response to nematode infection |
|
Elevated haemocyte number is associated with infection and low fitness potential in wild Daphnia magna |
|
Evolution of hosts paying manifold costs of defence. |
|
Evolution of parasite virulence when host responses cause disease |
|
Evolution: Parasite Pressure Favors Fortress-like Defence |
|
Evolutionary Causes and Consequences of Immunopathology |
|
Experimental manipulation of immune-mediated disease and its fitness costs for rodent malaria parasites |
|
Explaining rapid reinfections in multiple-wave influenza outbreaks: Tristan da Cunha 1971 epidemic as a case study. |
|
Exposure to viral and bacterial pathogens among Soay sheep (Ovis aries) of the St Kilda archipelago. |
|
Feeding Immunity: Physiological and Behavioral Responses to Infection and Resource Limitation. |
|
Fitness consequences of immune responses: strengthening the empirical framework for ecoimmunology |
|
Fitness correlates of heritable variation in antibody responsiveness in a wild mammal. |
|
Heritable, heterogeneous, and costly resistance of sheep against nematodes and potential feedbacks to epidemiological dynamics |
|
Immune Signaling Networks: Sources of Robustness and Constrained Evolvability during Coevolution |
|
The impact of albendazole treatment on the incidence of viral- and bacterial-induced diarrhea in school children in southern Vietnam: study protocol for a randomized controlled trial |
|
Increased exposure to Plasmodium chabaudi antigens sustains cross-reactivity and avidity of antibodies binding Nippostrongylus brasiliensis: dissecting cross-phylum cross-reactivity in a rodent model |
|
Inferring infection hazard in wildlife populations by linking data across individual and population scales |
|
Insights from parasite-specific serological tools in eco-immunology |
|
Instructed subsets or agile swarms: how T-helper cells may adaptively counter uncertainty with variability and plasticity. |
|
Integrating immune mechanisms to model nematode worm burden: an example in sheep |
|
Interesting open questions in disease ecology and evolution |
|
Joint associations of blood plasma proteins with overwinter survival of a large mammal. |
|
Medium-term scenarios of COVID-19 as a function of immune uncertainties and chronic disease |
|
Multivariate immune defences and fitness in the wild: complex but ecologically important associations among plasma antibodies, health and survival. |
|
Natural selection on individual variation in tolerance of gastrointestinal nematode infection |
|
Opportunities and challenges of Integral Projection Models for modelling host-parasite dynamics |
|
Optimal immune specificity at the intersection of host life history and parasite epidemiology |
|
Optimal immunity meets natural variation: the evolutionary biology of host defence. |
|
Optimality analysis of Th1/Th2 immune responses during microparasite-macroparasite co-infection, with epidemiological feedbacks |
|
Parasite genetic diversity does not influence TNF-mediated effects on the virulence of primary rodent malaria infections. |
|
Parasite-Microbiota Interactions With the Vertebrate Gut: Synthesis Through an Ecological Lens. |
|
Parasite resource manipulation drives bimodal variation in infection duration |
|
Parasitic co-infections: challenges and solutions |
|
Partial immunity and SARS-CoV-2 mutations—Response |
|
Partitioning regulatory mechanisms of within-host malaria dynamics using the effective propagation number. |
|
Pathways to zoonotic spillover. |
|
Physiological proteins in resource-limited herbivores experiencing a population die-off. |
|
Plasmodium chabaudi limits early Nippostrongylus brasiliensis-induced pulmonary immune activation and Th2 polarization in co-infected mice |
|
Quantifying variation in the potential for antibody-mediated apparent competition among nine genotypes of the rodent malaria parasite Plasmodium chabaudi |
|
Quantitative appraisal of murine filariasis confirms host strain differences but reveals that BALB/c females are more susceptible than males to Litomosoides sigmodontis. |
|
Rapid environmental effects on gut nematode susceptibility in rewilded mice. |
|
Relative contributions of environmental and maternal factors to trans-generational immune priming inT. castaneum |
|
Revealing mechanisms underlying variation in malaria virulence: effective propagation and host control of uninfected red blood cell supply. |
|
Rhodnius prolixus Life History Outcomes Differ when Infected with Different Trypanosoma cruzi I Strains |
|
Robust extraction of quantitative structural information from high-variance histological images of livers from necropsied Soay sheep. |
|
Schedule and magnitude of reproductive investment under immune trade-offs explains sex differences in immunity |
|
T testing the immune system |
|
Trans-generational priming of resistance in wild flour beetles reflects the primed phenotypes of laboratory populations and is inhibited by co-infection with a common parasite |
|
Transmission consequences of coinfection: cytokines writ large? |
|
Trypanosoma cruzi-Trypanosoma rangeli co-infection ameliorates negative effects of single trypanosome infections in experimentally infected Rhodnius prolixus |
|
Understanding Herd Immunity |
|
Universal or Specific? A Modeling-Based Comparison of Broad-Spectrum Influenza Vaccines against Conventional, Strain-Matched Vaccines |
|
Use of serological surveys to generate key insights into the changing global landscape of infectious disease |
|
Using process algebra to develop predator-prey models of within-host parasite dynamics |
|
Vaccine nationalism and the dynamics and control of SARS-CoV-2 |
|
What Do We Need to Know to Enhance the Environmental Sustainability of Agricultural Production? A Prioritisation of Knowledge Needs for the UK Food System |
|
What is the 'true' effect of Trypanosoma rangeli on its triatomine bug vector? |
|
Why do adaptive immune responses cross-react? |
|
Wild immunology: converging on the real world. |
|
Within-host dynamics of infection: from ecological insights to evolutionary predictions |
|