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factors that determine the outcome
- pathogenicity of the microbe
- resistance/susceptibility of the host
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pathogens
organisms that live on or in a host organism causing damage to the host
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virulence
- quantitative measure of pathogenicity
- cell number that will elicit a pathogen response in a host within a given time period
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*infection
microorganism is established and growing in host
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*disease
damage or injury to the host that impairs host function
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*LD50
- lethal dose50
- dose of an agent that kills 50% of animals in a test group
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*attenuation
- reduced virulence
- often happens with lab strains where virulence not continually selected for
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exposure
- exposed surfaces
- breaks
- wounds
- mucous
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*adherence
- selective, often multiple mechanisms
- capsule/slime layer - promotes adherence and binding to surfaces
- adherence proteins - protein on the cell can bind to receptors from the host
- lipoteichoic acid - facilitate binding to receptor
- fimbrae (pili) - Type I pili, adhere to mannose residues on host cell surfaces, uniformly distributed and produce a static attachment
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colonization and growth
- availability of nutrients and minerals
- localization
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*bacterial strategies for iron uptake
- expression of receptors for host iron carriers
- synthesis, secretion and uptake of siderophores (high affinity iron-binding molecules), often in pathogenicity or "fitness" islands - can remove iron from animal iron-binding proteins
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toxicitty
ability of an organism to cause disease based on action of toxin
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invasiveness
ability of the organism to grow in host tissues in such large numbers that the pathogen inhibits host function
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* exotoxins
- virulence factors
- very potent and have specific functions
- released extracellularly
- *proteins - denatured by heat
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*classes of exotoxins
- cytolytic toxins
- AB toxins
- superantigen toxins
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cytolytic
act on the cytoplasmic membrane, causing cell lysis and cell death
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How can you detect a cytolytic exotoxin?
blood agar plate - can detect hemolysins (toxins that rupture red blood cell resulting in hemolysis)
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*A-B toxins
- secreted by bacteria
- fragment B promotes specific binding to host cell receptor
- proteolytic cleavage occurs
- A into host cytoplasm where it disrupts host cell function
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*pathogenicity islands
- large genomic regions
- present in genomes of pathogenic strains and not in nonpathogenic strains- occurrence is widespread
- *often linked to a tRNA gene
- often different GC content
- often unusual codon usage
- acquired through horizontal gene transfer
encode a variety of virulence factors
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basic structure of a pathogenicity island
- tRNA gene flanked by direct repeats
- mobility factors: integrase, transposases, insertion sequence elements (remnants of phage or plasmids)
- gene clusters with specific functions - enhance virulence/fitness
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