Open Veterinary Journal (Aug 2024)

First molecular sequencing of Babesia gibsoni in ticks, Iraq

  • Israa M. Essa,
  • Ghazi Y. Azzal,
  • Nadia K. Thamer

DOI
https://doi.org/10.5455/OVJ.2024.v14.i8.32
Journal volume & issue
Vol. 14, no. 8
pp. 2029 – 2039

Abstract

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Background: Tick is one of the most important ectoparasites which distributed worldwide and plays an obvious role in transmission of different infections to humans and animals as dogs. Aim: This study conducted to molecular demonstration of B. gibsoni in ticks of stray dogs and phylogenetic analysis of study isolates to detect their identity to global isolates. Prevalence of ticks in dogs, identification of tick species, and its relationship to some risk factors was aimed, also. Methods: A total of 97 stray dogs were inspected grossly to detect and collect of ticks existed in different body parts. After collection, all ticks were examined morphologically to identify its species, and then molecularly by the polymerase chain reaction (PCR) assay to detect B. gibsoni in different species of ticks. Local B. gibsoni isolates were sequenced, documented in the NCBI database, analyzed phylogenetically and compared with the global GenBank-NCBI isolates. Results: In the current study, ticks were detected in 43.3% dogs, and showed to be varied in number and distribution among different body parts of each dog. Concerning its distribution, ticks were observed significantly on abdomen, ear, and perineal region. Relation to risk factors, ticks were increased significantly in dogs of 6 months old in comparison to older dogs, males more than females; and in rural areas more than dogs of sub-urban and urban areas. Based on morphology, different tick species were seen including Hylaomma anatolicum (86.12%), Rhipicephalus sanguineus (11.99%) and Rhipicephalus turanicus (1.89%). Targeting 18S rRNA gene, PCR assay reported 3.79% positive ticks to B. gibsoni that seen in R. sanguineus (13.16%) and H. anatolicum (2.56%). Based on phylogenetic analysis data of five local B. gibsoni isolates, this study demonstrated their closely relations to the global NCBI-BLAST B. gibsoni Iraqi isolate (ID: MN385424.1). Conclusion: This represents the first Iraqi study demonstrated molecularly B. gibsoni in different species of ticks that infected stray dogs. [Open Vet J 2024; 14(8.000): 2029-2039]

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