Aspergillus flavus genetic structure at a turkey farm

Ghaya Cherif; Ines Hadrich; Myriam Harrabi; Aicha Kallel; Nejla Fakhfekh; Mariem Messaoud; Hajer Ben Abdallah; Ons Azeiz; Kalthoum Kallel; Stéphane Ranque

doi:10.1002/vms3.1015

Veterinary Medicine and Science (Jan 2023)

Aspergillus flavus genetic structure at a turkey farm

Ghaya Cherif,
Ines Hadrich,
Myriam Harrabi,
Aicha Kallel,
Nejla Fakhfekh,
Mariem Messaoud,
Hajer Ben Abdallah,
Ons Azeiz,
Kalthoum Kallel,
Stéphane Ranque

Affiliations

Ghaya Cherif: Laboratory of Parasitology and Mycology UR17SP 03 La Rabta Hospital Tunis Tunisia
Ines Hadrich: Fungi and Parasitic Molecular Biology Laboratory School of Medicine University of Sfax Sfax Tunisia
Myriam Harrabi: Higher Institute of Nursing Sciences of Tunis University Tunis El Manar Tunis Tunisia
Aicha Kallel: Laboratory of Parasitology and Mycology UR17SP 03 La Rabta Hospital Tunis Tunisia
Nejla Fakhfekh: Laboratory of Parasitology and Mycology UR17SP 03 La Rabta Hospital Tunis Tunisia
Mariem Messaoud: Laboratory of Parasitology and Mycology UR17SP 03 La Rabta Hospital Tunis Tunisia
Hajer Ben Abdallah: Alfa Group Poultry Company Chahia Sfax Tunisia
Ons Azeiz: Research Platform in Medicine Sciences and Technologies, Faculty of Medicine Tunis Tunisia
Kalthoum Kallel: Laboratory of Parasitology and Mycology UR17SP 03 La Rabta Hospital Tunis Tunisia
Stéphane Ranque: Aix‐Marseille Université, IRD, AP‐HM, SSA VITROME Marseille France

DOI: https://doi.org/10.1002/vms3.1015
Journal volume & issue: Vol. 9, no. 1
pp. 234 – 241

Abstract

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Abstract Background The ubiquitous environmental fungus Aspergillus flavus is also a life‐threatening avian pathogen. Objectives This study aimed to assess the genetic diversity and population structure of A. flavus isolated from turkey lung biopsy or environmental samples collected in a poultry farm. Methods A. flavus isolates were identified using both morphological and ITS sequence features. Multilocus microsatellite genotyping was performed by using a panel of six microsatellite markers. Population genetic indices were computed using FSTAT and STRUCTURE. A minimum‐spanning tree (MST) and UPGMA dendrogram were drawn using BioNumerics and NTSYS‐PC, respectively. Results The 63 environmental (air, surfaces, eggshells and food) A. flavus isolates clustered in 36 genotypes (genotypic diversity = 0.57), and the 19 turkey lung biopsies isolates clustered in 17 genotypes (genotypic diversity = 0.89). The genetic structure of environmental and avian A. flavus populations were clearly differentiated, according to both F‐statistics and Bayesian model‐based analysis’ results. The Bayesian approach indicated gene flow between both A. flavus populations. The MST illustrated the genetic structure of this A. flavus population split in nine clusters, including six singletons. Conclusions Our results highlight the distinct genetic structure of environmental and avian A. flavus populations, indicative of a genome‐based adaptation of isolates involved in avian aspergillosis.

Published in Veterinary Medicine and Science

ISSN: 2053-1095 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Agriculture: Animal culture: Veterinary medicine
Website: https://onlinelibrary.wiley.com/journal/20531095

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