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<edm:dataProvider>University of Veterinary Medicine Vienna</edm:dataProvider>

  
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<dc:title xml:lang="en">Comprehensive phenotyping combined with multi-omics of&lt;i&gt; Salmonella&lt;/i&gt; Infantis and its H2S negative variant- Resolving adaption mechanisms to environmental changes</dc:title>

  
<dc:description xml:lang="en">The zoonotic pathogen S. Infantis is of emerging importance, making detection in poultry critical. Phenotypic changes, which are significant for standardized control programs via EN/ISO 6579-1:2017, could lead to pathogens remaining undetected, increasing the risk of food-borne outbreaks. This study investigates an S. Infantis strain with both normal growth (NCP) and atypical HAS-negative colony variant (ACV) from an Austrian broiler farm. NCP and ACV underwent comprehensive analyses, including stability tests, electron microscopy, whole-genome sequencing, transcriptomics, and proteomics. Our findings demonstrate a stable atypical colony variant exhibiting acquired resistance against cefoxitin in ACV. Genomic analysis identified 9 single nucleotide polymorphisms (SNPs) and two deletions, affecting genes involved in porphyrin and sulfur metabolism. Key factors were a mutation disrupting cysG, which is essential for siroheme biosynthesis and a vital cofactor in sulfur metabolism, and a stop codon in menD (2-oxoglutarate decarboxylase), crucial for small colony variant appearance. Consequently, we hypothesize that these mutations lead to a deficiency in siroheme, as well as anaerobic sulfur respiration altogether resulting in the HAS-negative phenotype. Functional network analysis highlighted compensatory upregulation of alternative metabolic pathways, including nitrate metabolism, propanoate metabolism and mixed-acid fermentation, which may aid ACV&#39;s persistence and adaptation under anaerobic conditions. Reduced flagellin expression suggests a mechanism for immune evasion. These genetic and metabolic adaptations likely respond to environmental stressors, such as oxidative stress from disinfectants or antimicrobial pressure, leading to the emergence of the HAS-negative phenotype. Consequently, this study provides insights into the genetic and biochemical adaptations of an atypical S. Infantis variant.</dc:description>

  
<dc:identifier rdf:resource="https://phaidra.vetmeduni.ac.at/o:4007"></dc:identifier>

  
<dc:language>en</dc:language>

  
<edm:type>TEXT</edm:type>

  
<dc:type>journal article</dc:type>

  
<dc:type>Wissenschaftlicher Artikel</dc:type>

  
<dc:type>Articolo di rivista</dc:type>

  
<dc:type xml:lang="de">Text</dc:type>

  
<dc:type xml:lang="de">Wissenschaftlicher Artikel</dc:type>

  
<dc:type xml:lang="en">Text</dc:type>

  
<dc:type xml:lang="en">journal article</dc:type>

  
<dc:type xml:lang="it">Testo</dc:type>

  
<dc:type xml:lang="it">Articolo di rivista</dc:type>

  
<dc:subject xml:lang="en">Enterica Serovar Typhimurium</dc:subject>

  
<dc:subject xml:lang="en">Small-Colony Variants</dc:subject>

  
<dc:subject xml:lang="en">Hydrogen-Sulfide</dc:subject>

  
<dc:subject xml:lang="en">Electron-Acceptor</dc:subject>

  
<dc:subject xml:lang="en">Ethanolamine</dc:subject>

  
<dc:subject xml:lang="en">Resistance</dc:subject>

  
<dc:subject xml:lang="en">Emergence</dc:subject>

  
<dc:subject xml:lang="en">Men</dc:subject>

  
<dcterms:issued>2025</dcterms:issued>

  
<dc:date>2025</dc:date>

  
<dc:creator>Victoria Drauch</dc:creator>

  
<dc:creator>Nicola Palmieri</dc:creator>

  
<dc:creator>Joachim Spergser</dc:creator>

  
<dc:creator>Karin Hummel</dc:creator>

  
<dc:creator>Marlene Brandstetter</dc:creator>

  
<dc:creator>Christian Kornschober</dc:creator>

  
<dc:creator>Michael Hess</dc:creator>

  
<dc:publisher>Elsevier</dc:publisher>

  
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