Moritz Baur
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View article: Experimental evolution of a pathogen confronted with innate immune memory increases variation in virulence
Experimental evolution of a pathogen confronted with innate immune memory increases variation in virulence Open
Understanding the drivers and mechanisms of virulence evolution is still a major goal of evolutionary biologists and epidemiologists. Theory predicts that the way virulence evolves depends on the balance between the benefits and costs it p…
View article: Experimental evolution of a pathogen confronted with innate immune memory increases variation in virulence
Experimental evolution of a pathogen confronted with innate immune memory increases variation in virulence Open
Understanding the drivers and mechanisms of virulence evolution is still a major goal of evolutionary biologists and epidemiologists. Theory predicts that the way virulence evolves depends on the balance between the benefits and costs it p…
View article: Immune priming in the insect gut: a dynamic response revealed by ultrastructural and transcriptomic changes
Immune priming in the insect gut: a dynamic response revealed by ultrastructural and transcriptomic changes Open
Research on forms of memory in innate immune systems has recently gained momentum with the study of trained immunity in vertebrates and immune priming in invertebrates. Immune priming provides protection against previously encountered path…
View article: Oomycete communities in lowland tropical forest soils vary in abundance and are composed of saprophytes and pathogens of seeds and seedlings of multiple plant species.
Oomycete communities in lowland tropical forest soils vary in abundance and are composed of saprophytes and pathogens of seeds and seedlings of multiple plant species. Open
Premise: The soils in lowland tropics are teeming with microbial life which can impact plant community structure and diversity through plant-soil feedbacks. While bacteria and fungi have been the focus of most studies in the tropics, the o…
View article: Differential proteome profiling of bacterial culture supernatants reveals candidates for the induction of oral immune priming in the red flour beetle
Differential proteome profiling of bacterial culture supernatants reveals candidates for the induction of oral immune priming in the red flour beetle Open
Most organisms are host to symbionts and pathogens, which led to the evolution of immune strategies to prevent harm. Whilst the immune defences of vertebrates are classically divided into innate and adaptive, insects lack specialized cells…
View article: Supplementary file 1 from Differential proteome profiling of bacterial culture supernatants reveals candidates for the induction of oral immune priming in the Red Flour Beetle
Supplementary file 1 from Differential proteome profiling of bacterial culture supernatants reveals candidates for the induction of oral immune priming in the Red Flour Beetle Open
Additional methods and results
View article: Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw
Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw Open
It has been shown that reactive soil minerals, specifically iron(III) (oxyhydr)oxides, can trap organic carbon in soils overlying intact permafrost, and may limit carbon mobilization and degradation as it is observed in other environments.…
View article: Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw
Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw Open
It has been shown that reactive soil minerals, specifically iron(III) (oxyhydr)oxides, can trap organic carbon in soils overlying intact permafrost, and may limit carbon mobilization and degradation as it is observed in other environments.…
View article: Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw
Iron mineral dissolution releases iron and associated organic carbon during permafrost thaw Open
It has been shown that reactive soil minerals, specifically iron(III) (oxyhydr)oxides, can trap organic carbon in soils overlying intact permafrost, and may limit carbon mobilization and degradation as it is observed in other environments.…