0000000001100315

AUTHOR

Karvonen Anssi

showing 2 related works from this author

Genotype-specific vs. cross-reactive host immunity against a macroparasite

2013

Vertebrate hosts often defend themselves against several co-infecting parasite genotypes simultaneously. This has important implications for the ecological dynamics and the evolution of host defence systems and parasite strategies. For example, it can drive the specificity of the adaptive immune system towards high genotype-specificity or cross-reactivity against several parasite genotypes depending on the sequence and probability of re-infections. However, to date, there is very little evidence on these interactions outside mammalian disease literature. In this study we asked whether genotype-specific or cross-reactive responses dominate in the adaptive immune system of a fish host towards…

lcsh:Rlcsh:MedicineTrematode InfectionsAdaptive ImmunityCross Reactionshost-parasite interactionHost-Parasite InteractionsristikkäisresistenssiFish Diseasesco-infectionOncorhynchus mykissisäntä-loinen vuorovaikutusyhteisinfektioAnimalslcsh:QTrematodalcsh:Sciencecross-resistanceLymnaeaResearch Article
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Sequential infection can decrease virulence in a fish-bacterium-fluke interaction: Implications for aquaculture disease management.

2018

Abstract Hosts are typically infected with multiple strains or genotypes of one or several parasite species. These infections can take place simultaneously, but also at different times, i.e. sequentially, when one of the parasites establishes first. Sequential parasite dynamics are common in nature, but also in intensive farming units such as aquaculture. However, knowledge of effects of previous exposures on virulence of current infections in intensive farming is very limited. This is critical as consecutive epidemics and infection history of a host could underlie failures in management practices and medical intervention of diseases. Here, we explored effects of timing of multiple infectio…

sequential infectionOriginal ArticleepidemiologyOriginal Articlesmultiple infectionsdynamic infectionspatiotemporal variationEvolutionary applications
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