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Multi-marker analysis of Fasciola gigantica from cattle and buffalo across Pakistan reveals high levels of genetic diversity and novel haplotypes

Published online by Cambridge University Press:  08 August 2025

Maria Komal
Affiliation:
Department of Zoology, Faculty of Biological Sciences, Quaid-i-Azam University, Islamabad, Pakistan
Kiran Afshan
Affiliation:
Department of Zoology, Faculty of Biological Sciences, Quaid-i-Azam University, Islamabad, Pakistan
Sabika Firasat
Affiliation:
Department of Zoology, Faculty of Biological Sciences, Quaid-i-Azam University, Islamabad, Pakistan
Jane E. Hodgkinson
Affiliation:
Institute of Infection, Veterinary and Ecological Sciences, University of Liverpool, Liverpool, UK
Krystyna Cwiklinski*
Affiliation:
Institute of Infection, Veterinary and Ecological Sciences, University of Liverpool, Liverpool, UK
*
Corresponding author: Krystyna Cwiklinski; Email: krystyna.cwiklinski@liverpool.ac.uk

Abstract

Molecular analyses of geographically dispersed Fasciola spp. isolates based on ribosomal, mitochondrial and nuclear molecular markers have revealed high levels of genetic diversity within liver fluke populations. To investigate the Fasciola population substructure across Pakistan 4 molecular markers were compared (fatty acid binding protein, fabp; phosphoenolpyruvate carboxykinase, pepck; random amplified polymorphic DNA, RAPD; mitochondrial NADH dehydrogenase, mt-nd1). Adult parasites (n = 595) were collected from buffalo and cattle across 4 provinces in Pakistan (Baluchistan, Gilgit Baltistan, Khyber Pakhtunkhwa, Punjab). Species classification of all 595 parasites was confirmed by the 3 gel-based markers (pepck, fabp and RAPD) as F. gigantica, except for the fabp marker which unexpectedly could not be amplified in 274 parasites (46%). Analysis of a subset of samples indicates the potential for mis-priming due to multiple genomic loci that match the fabp primer sequences resulting in negative PCR products in some cases. Sequence analysis of the mt-nd1 PCR products identified 29 haplotypes within the samples from Pakistan, the majority of which are unique to this study. None of the 29 haplotype sequences were identified in samples from Africa, highlighting the genetic diversity between geographically disparate liver fluke populations. Inconsistencies between Fasciola spp. molecular markers in this study highlights the need for multiple markers, validated on large numbers of geographically disparate parasites, to generate robust analyses of liver fluke genetic diversity. This study echoes other Fasciola spp. population studies and highlights the genetic diversity of F. gigantica populations in Pakistan that is comparable to observations of diversity throughout Asia.

Information

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2025. Published by Cambridge University Press.
Figure 0

Figure 1. Map of study area across the 4 provinces in Pakistan. The sampling sites are highlighted in green.

Figure 1

Table 1. Sampling sites across four provinces in Pakistan (Baluchistan, Gilgit Baltistan, Khyber Pakhtunkhwa (KPK) and Punjab)

Figure 2

Table 2. Fasciola spp. primer sequences

Figure 3

Figure 2. Median joining haplotype network of the Fasciola spp. mt-nd1 sequences generated from the adult fluke samples from Pakistan, compared with known samples of F. hepatica and F. gigantica. The network graph was created using popart v.1.7 (http://popart.Otago.Ac.Nz). The frequency of each haplotype is represented by the size of the circles and the colour highlights from which geographical area the adult fluke sample originated. The number of mutations observed within the sequences is shown by the hatch marks, along the lines between each haplotype that is proportional to the number of base substitutions, and the unsampled/hypothetical haplotypes are shown by the black dots.

Figure 4

Figure 3. Median joining haplotype network of Fasciola spp. mt-nd1 sequences. This network graph created using popart v.1.7 (http://popart.otago.ac.nz) represents all the mt-nd1 sequences generated in this study (samples from Pakistan and positive control samples) and Fasciola spp. mt-nd1 reference sequences from NCBI. The frequency of each haplotype is represented by the size of the circles and the colour highlights from which geographical area the adult fluke sample originated. The number of mutations observed within the sequences is shown by the hatch marks, along the lines between each haplotype that is proportional to the number of base substitutions, and the unsampled/hypothetical haplotypes are shown by the black dots.

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