Hood scite author profile

The need to prevent and cure emerging diseases often precludes their continuing study in situ. We present studies on the process of disease emergence by host shifts using the model system of anther-smut disease (Microbotryum violaceum) on the plant genus Silene (Caryophyllaceae). This system has little direct social impact, and it is readily amenable to experimental manipulation. Our microevolutionary studies have focused on the host shift of Microbotryum from Silene alba (=latifolia; white campion) onto Silene vulgaris (bladder campion) in a population in Virginia. Karyotypic variation shows that the host shift is recent and originates from the disease on sympatric S. alba. Analysis of the spatial pattern of disease shows that the host shift has been contingent on the co-occurrence of the two species at a local scale. Cross-inoculation studies show that families of the new host differ greatly in their susceptibility to the pathogen, indicating the potential for rapid evolution of resistance. Disease expression on the new host is frequently abnormal, suggesting that the pathogen is imperfectly adapted to its new host. In experimental populations, disease transmission within populations of the old host is greater than within populations of the new host. However, there is also a high transmission rate of the disease from the new host back to the old host, suggesting a feedback effect that increases disease prevalence in the community as a whole. Continuing studies of these populations are designed to determine whether this new host-pathogen system is likely to be self-sustaining and to quantify evolutionary changes in both the host and the pathogen.

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Pathogen Relatedness Affects the Prevalence of within-Host Competition

Koskella¹,

Giraud²,

Hood³

2006

The American Naturalist

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Although the evolutionary consequences of within-host competition among pathogens have been examined extensively, there exists a critical gap in our understanding of factors determining the prevalence of multiple infections. Here we examine the effects of relatedness among strains of the anther-smut pathogen Microbotryum violaceum on the probability of multiple infection in its host, Silene latifolia, after sequential inoculations. We found a significantly higher probability of multiple infection when interacting strains were more closely related, suggesting mechanisms of competitive exclusion that are conditional on genotypic characteristics of the strains involved. Pathogen relatedness therefore determines the prevalence of multiple infection in addition to its outcome, with important consequences for our understanding of virulence evolution and pathogen population structure and diversity.

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Workshop: Atherosclerosis-Hypertension Interrelationships

Lovell¹,

Ag²,

G.³

et al. 1974

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Digitalis zur Behandlung der chronischen Herzinsuffizienz bei Patienten mit Sinusrhythmus

Hood¹,

Dans²,

Guyatt³

et al. 2002

Praxis

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Hood

The Ecology and Genetics of a Host Shift: Microbotryum as a Model System

Pathogen Relatedness Affects the Prevalence of within-Host Competition

Workshop: Atherosclerosis-Hypertension Interrelationships

Digitalis zur Behandlung der chronischen Herzinsuffizienz bei Patienten mit Sinusrhythmus

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