# Novel insights into antimicrobial-resistant, virulent and biofilm-forming Salmonella: Molecular and phenotypic evidence from duck at the human-animal-environment interface

**Authors:** Aditya Paul, Siddhartha Narayan Joardar, Indranil Samanta, Kunal Batabyal, Samir Dey, Prakash Ghosh, Ahmed Abd El Wahed, Rajarshi Bardhan, Keshab Chandra Dhara, Sanjoy Datta

PMC · DOI: 10.3389/fmicb.2025.1753559 · Frontiers in Microbiology · 2026-01-23

## TL;DR

This study reveals that ducks in India can carry dangerous Salmonella strains that are drug-resistant, form biofilms, and could spread to humans.

## Contribution

The study identifies ducks as a new reservoir for high-risk Salmonella and discovers novel protein markers for early detection.

## Key findings

- Salmonella isolates from ducks showed high rates of ESBL production and multidrug resistance.
- Strong correlations were found between biofilm formation, drug resistance, and virulence in Salmonella isolates.
- Two unique protein markers (69 and 35 kDa) were identified for detecting high-risk Salmonella strains.

## Abstract

The present study provides first time the comprehensive molecular and phenotypic characterization of antimicrobial-resistant, biofilm-forming, and virulent Salmonella spp. isolated from apparently healthy ducks and their environments in West Bengal, India. A total of 462 samples from Indigenous, Khaki Campbell, and Pekin ducks yielded 436 isolates, of which 42.2% were ESBL producers carrying blaTEM (36.5%), blaCTX−M(20.6%), blaSHV (17.7%), and blaAmpC (32.6%). Sequence analysis revealed multiple clinically relevant alleles, including blaTEM-164, blaCTX−M-15, and blaSHV-45, underscoring their potential public health significance. The isolates were also screened for biofilm genes (csgA, sdiA, rpoS, rcsA), and the virulence gene invA. Biofilm-associated genes were widely distributed (csgA: 54.59%, sdiA: 52.52%, rpoS: 80.28%, rcsA: 63.76%), while 141 (32.34%) of isolates possessed the invA virulence marker. Of 26 selected strains, high multi-drug resistance was detected, mainly against tetracycline and cefixime. Phylogenetic analysis of ESBL gene sequences showed clustering across avian, animal, and clinical (human) Salmonella isolates, indicating potential interspecies transmission and evolutionary divergence. Notably, strong positive correlations were observed among biofilm formation, multidrug resistance, and virulence (τ = 0.656, ρ = 0.765, p < 0.001). Western blotting further identified two unique polypeptide markers (69 and 35 kDa) with diagnostic potential for detecting resistant, virulent, and biofilm-forming Salmonella. In short, these findings highlight, for the first time, duck as silent reservoirs of high-risk Salmonella strains, and propose novel protein markers to facilitate early detection at the human-animal-environment interface.

## Linked entities

- **Genes:** blaCTX-M (CTX-M family extended-spectrum class A beta-lactamase) [NCBI Gene 85161177], bla SHV (class A extended-spectrum beta-lactamase SHV-2) [NCBI Gene 40101717], csgA (curlin major subunit CsgA) [NCBI Gene 913991], sdiA (quorum-sensing transcriptional activator) [NCBI Gene 912965], rpoS (RNA polymerase sigma factor RpoS) [NCBI Gene 880421], rcsA (transcriptional regulator) [NCBI Gene 913009], invA (invasion protein) [NCBI Gene 1254419]

## Full-text entities

- **Genes:** MFT2 (Trichoepithelioma, multiple familial, 2) [NCBI Gene 100188881] {aka TEM}
- **Chemicals:** cefixime (MESH:D020682), tetracycline (MESH:D013752)
- **Species:** Homo sapiens (human, species) [taxon 9606], Anas platyrhynchos (duck, species) [taxon 8839], Salmonella (genus) [taxon 590]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12876195/full.md

## References

90 references — full list in the complete paper: https://tomesphere.com/paper/PMC12876195/full.md

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Source: https://tomesphere.com/paper/PMC12876195