Title of article
Phylogeography, Genetic Diversity and Population Structure of Echinococcus granulosus Sensu Stricto Inferred by Mitochondrial DNA Markers between Southeast of Iran and Pakistan
Author/Authors
Anvari ، Davood Department of Parasitology - Student Research Committee, Toxoplasmosis Research Center, School of Medicine - Mazandaran University of Medical Science , Gholami ، Shirzad Department of Parasitology - Toxoplasmosis Research Center, School of Medicine - Mazandaran University of Medical Sciences , Spotin ، Adel Immunology Research Center - Tabriz University of Medical Sciences , Hosseini ، Abdollah Department of Parasitology - Toxoplasmosis Research Center, School of Medicine - Mazandaran University of Medical Sciences , Daryani ، Ahmad Department of Parasitology - Toxoplasmosis Research Center, School of Medicine - Mazandaran University of Medical Sciences , Sarvi ، Shahabeddin Department of Parasitology - Toxoplasmosis Research Center, School of Medicine - Mazandaran University of Medical Sciences , Narouei ، Mohammad Reza Faculty of Veterinary Medicine - University of Zabol , Hosseini ، Mona Faculty of Veterinary Medicine - University of Zabol , Siyadatpanah ، Abolghasem Infectious Diseases Research Center - Gonabad University of Medical Sciences
From page
140
To page
152
Abstract
Background: Current study was designed to provide a better insight into the circulating genotypes, genetic diversity, and population structure of Echinococcus spp. between southeast of Iran and Pakistan. Methods: From Jun 2020 to Dec 2020, 46 hydatid cysts were taken from human (n: 6), camel (n: 10), goat (n: 10), cattle (n: 10) and sheep (n: 10) in various cities of Sistan and Baluchestan Province of Iran, located at the neighborhood of Pakistan. DNA samples were extracted, amplified, and subjected to sequence analysis of cox1 and nad1 genes. Results: The phylogeny inferred by the Maximum Likelihood algorithm indicated that G1 genotype (n: 19), G3 genotype (n: 14) and G6 genotype (n: 13) assigned into their specific clades. The diversity indices showed a moderate (nad1: Hd: 0.485) to high hap- lotype diversity (cox1: Hd: 0.867) of E. granulosus s.s. (G1/G3) and low nucleotide diver- sity. The negative value of Tajima’s D and Fu’s Fs test displayed deviation from neutrali- ty indicating a recent population expansion. A parsimonious network of the haplotypes of cox1 displayed star-like features in the overall population containing IR9/PAK1/G1, IR2/PAK2/G3 and IR18/G6 as the most common haplotypes. A pairwise fixation index (Fst) indicated that E. granulosus s.s. populations are genetically moderate differen- tiated between southeast of Iran and Pakistan. The extension of haplotypes PAK18/G1 (sheep) and PAK26/G1 (cattle) toward Iranian haplogroup revealed that there is dawn of Echinococcus flow due to a transfer of alleles between mentioned populations through transport of livestock or their domestication. Conclusion: The current findings strengthen our knowledge concerning the evolution- ary paradigms of E. granulosus in southeastern borders of Iran and is effective in control- ling of hydatidosis.
Keywords
Echinococcus granulosus , Haplotype diversity , Mitochondrial DNA markers , Phylogeny , Iran
Journal title
Iranian Journal of Parasitology (IJP)
Journal title
Iranian Journal of Parasitology (IJP)
Record number
2773216
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