Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0017160 (
gastroenteritis
)
11,398
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human enteric pathogens, such as
Salmonella
spp. and verotoxigenic
Escherichia coli
, are increasingly recognized as causes of
gastroenteritis
outbreaks associated with the consumption of fruits and vegetables. Persistence in plants represents an important part of the life cycle of these pathogens. The identification of the full complement of
Salmonella
genes involved in the colonization of the model plant (tomato) was carried out using transposon insertion sequencing analysis. With this approach, 230,000 transposon insertions were screened in tomato pericarps to identify loci with reduction in fitness, followed by validation of the screen results using competition assays of the isogenic mutants against the wild type. A comparison with studies in animals revealed a distinct plant-associated set of genes, which only partially overlaps with the genes required to elicit disease in animals.
De novo
biosynthesis of amino acids was critical to persistence within tomatoes, while amino acid scavenging was prevalent in animal infections. Fitness reduction of the
Salmonella
amino acid synthesis mutants was generally more severe in the tomato
rin
mutant, which hyperaccumulates certain amino acids, suggesting that these nutrients remain unavailable to
Salmonella
spp. within plants.
Salmonella
lipopolysaccharide (LPS) was required for persistence in both animals and plants, exemplifying some shared pathogenesis-related mechanisms in animal and plant hosts. Similarly to phytopathogens,
Salmonella
spp. required biosynthesis of amino acids, LPS, and nucleotides to colonize tomatoes. Overall, however, it appears that while
Salmonella
shares some strategies with phytopathogens and taps into its animal virulence-related functions, colonization of tomatoes represents a distinct strategy, highlighting this pathogen's flexible metabolism.
IMPORTANCE
Outbreaks of
gastroenteritis
caused by human pathogens have been increasingly associated with foods of plant origin, with tomatoes being one of the common culprits. Recent studies also suggest that these human pathogens can use plants as alternate hosts as a part of their life cycle. While dual (animal/plant) lifestyles of other members of the
Enterobacteriaceae
family are well known, the strategies with which
Salmonella
colonizes plants are only partially understood. Therefore, we undertook a high-throughput characterization of the functions required for
Salmonella
persistence within tomatoes. The results of this study were compared with what is known about genes required for
Salmonella
virulence in animals and interactions of plant pathogens with their hosts to determine whether
Salmonella
repurposes its virulence repertoire inside plants or whether it behaves more as a phytopathogen during plant colonization. Even though
Salmonella
utilized some of its virulence-related genes in tomatoes, plant colonization required a distinct set of functions.
...
PMID:Salmonella Persistence in Tomatoes Requires a Distinct Set of Metabolic Functions Identified by Transposon Insertion Sequencing. 2803 31
