Dynamics of Multiple Infection and Within‐Host Competition by the Anther‐Smut Pathogen

@article{Hood2003DynamicsOM,
  title={Dynamics of Multiple Infection and Within‐Host Competition by the Anther‐Smut Pathogen},
  author={Michael E. Hood},
  journal={The American Naturalist},
  year={2003},
  volume={162},
  pages={122 - 133}
}
  • M. Hood
  • Published 27 June 2003
  • Biology
  • The American Naturalist
Infection of one host by multiple pathogen genotypes represents an important area of pathogen ecology and evolution that lacks a broad empirical foundation. Multiple infection of Silene latifolia by Microbotryum violaceum was studied under field and greenhouse conditions using the natural polymorphism for mating‐type bias as a marker. Field transmission resulted in frequent multiple infection, and each stem of the host was infected independently. Within‐host diversity of infections equaled that… 
View on U Chicago Press
www3.amherst.edu
103 Citations
Highly Influential Citations
2
Background Citations
64
Methods Citations
8
Results Citations
11

103 Citations

Citation Type

Citation Type

Within-host competitive exclusion among species of the anther smut pathogen
TLDR
Evidence is shown that competitive exclusion during infection can be greater among closely related pathogen species than among genotypes within species, and this pattern follows from prior studies demonstrating that genetic distance and antagonistic interactions are positively correlated in Microbotryum.
Influence of Multiple Infection and Relatedness on Virulence: Disease Dynamics in an Experimental Plant Population and Its Castrating Parasite
TLDR
This is one of the few studies to have empirically verified theoretical expectations for castrating parasites, and to show particularly i that castrated hosts live longer, suggesting that parasites can redirect resources normally used in reproduction to increase host lifespan, lengthening their transmission phase, and ii) that multiple infections increase virulence, here in terms of non-recovery and host castration.
Multiple infections, relatedness and virulence in the anther‐smut fungus castrating Saponaria plants
TLDR
The results support the hypothesis that relatedness‐dependent competitive exclusion occurs in Microbotryum fungi within plants and these microorganisms can thus respond to competitors and to their level of relatedness.
Multiple Infections by the Anther Smut Pathogen Are Frequent and Involve Related Strains
TLDR
Investigating multiple infections in natural populations of the systemic fungal plant parasite Microbotryum violaceum found that multiple infections can be extremely frequent, with different fungal genotypes found in different stems of single plants.
Mixed infections alter transmission potential in a fungal plant pathogen
TLDR
It was showed that within‐host competition can have a major effect on infection dynamics and pathogen population structure in a pathogen and host genotype‐specific manner and likely have amajor effect on the development of septoria tritici blotch epidemics and the evolution of virulence in Z. tritico.
Variation in resistance to multiple pathogen species: anther smuts of Silene uniflora
TLDR
The results suggest that selection for resistance to one pathogen may protect the host from the emergence via host shifts of related pathogen species, and conversely that co-occurrence of two species of pathogens may be dependent on the presence of host genotypes susceptible to both.
Sympatry and interference of divergent Microbotryum pathogen species
TLDR
Investigation of anther‐smut disease among natural populations of plants in the Caryophyllaceae indicates that multi‐host/multi‐pathogen communities are common in this system and they involve a previously hidden mechanism of interference between Microbotryum fungi, which likely affects both pathogen and host distributions.
Selfing Propensity under Choice Conditions in a Parasitic Fungus, Microbotryum violaceum, and Parameters Influencing Infection Success in Artificial Inoculations
TLDR
It is suggested that selfing may largely result from intratetrad mating (=intrameiotic), and this has important consequences for understanding the maintenance of haplolethal alleles in M. violaceum.
Context-dependent effects of induced resistance under co-infection in a plant–pathogen interaction
TLDR
Whether hosts’ induced defenses mediate dynamics of multiple infection of the fungal pathogen, Podosphaera plantaginis, infecting Plantago lanceolata is studied and results have applied implications for priming where the plants’ defenses are elicited to provide protection against further attack.
Co‐occurrence and hybridization of anther‐smut pathogens specialized on Dianthus hosts
TLDR
Investigation of the anther‐smut fungi reveals how variation in the degrees of host specificity can have major implications for ecological interactions and genetic integrity of differentiated pathogen lineages.
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 51 REFERENCES
Mixed inoculation alters infection success of strains of the endophyte Epichloë bromicola on its grass host Bromus erectus
TLDR
Considering the genetic variation in both host and parasite may be important for a better understanding of within–host dynamics and their role in epidemiology or (co)evolution.
Host and parasite population structure in a natural plant–pathogen system
TLDR
The effect of limited gene flow in this parasite on its coevolutionary interaction with its host, and its potential for local adaptation on sympatric host populations are discussed.
Spread of Anther-Smut Disease (Ustilago Violacea) and Character Correlations in a Genetically Variable Experimental Population of Silene Alba
TLDR
There was evidence for a genetic correlation between disease resistance and flowering date in males, such that early flowering families were more prone to infection, which suggests that resistance could have a fitness cost, since earlier flowering plants are likely to have high fitness in the absence of disease.
Plant life-history and disease susceptibility - the occurrence of Ustilago violacea on different species within the Caryophyllaceae
TLDR
Data from the empirical literature on the relationship between the presence of anther-smut diseases and host life span in the Caryophyllaceae shows that the distribution of Ustilago violacea among host species within the Caryphyllaceae is closely related to the life span of its host species.
Karyotypic similarity identifies multiple host-shifts of a pathogenic fungus in natural populations.
  • M. Hood, J. Antonovics, Hilary Heishman
  • Biology, Medicine
    Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases
  • 2003
THE INFLUENCE OF HOST DEMOGRAPHY ON THE EVOLUTION OF VIRULENCE OF A MICROSPORIDIAN GUT PARASITE
TLDR
The results point out that single‐factor explanations for the evolution of virulence can lead to wrong predictions and that multiple infections are an important factor in virulence evolution.
Multistrain infections of the grass Brachypodium sylvaticum by its fungal endophyte Epichloë sylvatica.
TLDR
It is concluded that the fungal genome controls choke formation and that the sexual and asexual subpopulations are separated at the ramet (tiller) level rather than at the genet (plant) level, which were further supported by analyses with log-linear models of the population structure of E. sylvatica.
Host‐specific differentiation in the anther smut fungus Microbotryum violaceum as revealed by microsatellites
TLDR
The data question spore morphology as a reliable character for anther smut systematics, and genetic relationships among samples as indicated by Neighbour‐Joining analysis based on genetic distances are discussed with respect to host phylogeny and host ecology.
Competition and Distribution Studies of Genetically Marked Strains of Ustilago violacea in the Same Host Plant
Four plants of Silene alba were inoculated with a suspension of cells of the anther smut fungus, Ustilago violacea, containing six genetically marked strains, three of each mating type; thus, nine
The Dynamics of Multiple Infection and the Evolution of Virulence
TLDR
It appears that evolution and population dynamics give rise to a feedback mechanism that when double infections are frequent, increased virulence is favored; but when pathogens become more virulent, the force of infection will decrease, favoring lower virulence again.
...
1
2
3
4
5
...