Leading report on the molecular prevalence of emerging pathogens Hepatozoon sp. and Lankesterella sp. In the blood samples of seven wild lizard species species

Khan, MS Key and checklist to the Pakistan lizards (Reptilia: Squamata: Sauria. Herpetozoa 15 (3/4), 99–119 (2002).

Math Google Scholar

Sajjad, A. et al. Urban herpetofauna and public attitude towards their protection in Rawalpindi and Islamabad, Pakistan. Int. J. Conserv. Sci. 12 (4), 1503–1514 (2021).

Math Google Scholar

Masroor, RA contribution to herpetology of North Pacistan: The amphibians and reptiles of the Margalla Hills National Park and the surrounding region. Soc. Breed. Amphib rep. NY. 4 (6), 2670–2672 (2012).

Math Google Scholar

Khan, M. et al. New records of Amblyomma gervaisi Associated from Pakistan with detection of a reptile Borrelia Sp. Tick. Tick. Born dis. 13 (6), 102047. (2022).

Article Math Google Scholar

Quillfeldt, P. et al. Molecular investigation of cocide infections of the side piloted Eidechsen-Uta Stansburiana on San Benito Oesten Island, Mexico. Étude moléculaire des infections à coccidies du lézard uta stansburiana sur l'île de san benito oeste, mexique. parasite 2543. (2018).

Article Google Scholar

Han, H. et al. First report from Hepatozoon (Apicoplexa: Adeleorina) from King -Ratten -Schlangen (Elaphe Carinata) in Shanghai with a description of a new species. Acta parasitol. 60(2), 266–274. https://doi.org/10.1515/ap-2015-0038

O'Dwyer, LH et al. Description of three new types of Hepatozoon (Apicoplexa, Hepatoidae) from rattle snakes (Crotalus Durissus Terrificus) Based on molecular, morphometric and morphological signs. Exp. Parasitol. 135200–207. (2013).

Article CAS PubMed Math Google Scholar

Maia, JP, Harris, DJ & Perera, A. Molecular Survey of Hepatozoon Species in lizards from North Africa. J. Parasitol. 97 (3), 513–517. (2011).

Article Pubmed Math Google Scholar

Megía-Palma, R., Martínez, J. & Merino, S. Molecular Characterization of the genus of hemococcidia Schellackia (Apicoplexa) shows the polyphyletic origin of the Lankesterellidae family. Zool. Scr. 43 (3), 304–312 (2014).

Article Google Scholar

Chang, Yc et al. Revaluation of hemoparasites in the black iguana iguana (CTENOSAURA SIMILIS) with the first pathological and molecular characterizations of Lankesterella Desseri N. sp. and new description of Hepatozoon Gamezi. Microorg 11 (10), 2374. (2023).

Article Cas Math Google Scholar

Harl, J. et al. Avian Haemosporidian parasites of accipitrime raptors. Malar. J. 21. (2022).

Megía-Palma, R. et al. Phylogenetic analyzes show this Schellackia Parasites (apicoplexa) that have been detected in American lizards are closely related to the genus Lankesterella: Is the area of Schellackia limited to the old world? Parasite. Vect. 10 (1), 470. (2017).

Article Cas Google Scholar

Chagas, CRF et al. Lankesterella (Apicoplexa, Lankesterellidae) Blood parasites Passeriform birds: prevalence, molecular and morphological characterization, with comments on sporozoit personnel in vivo and development in vitro. Anim 181451. (2021).

Article Google Scholar

Khalil, S., Rana, Ah & Hussain, T. Morphometric analysis by Liny Tailed lizard (lizardSaara Hardwickii) From the less Cholistanian desert, Bahawalpur, Punjab, Pakistan. J. Anim. Attachment. Sci. 32 (1), 301–310 (2022).

Article Google Scholar

Ribeiro-Júnior, MA, Gardner, Ta & Ávila-Pires, TCS The effectiveness of adhesive traps into lizards in a tropical rainforest. South. Amr J. Herpetol. 1 (2), 131–137 (2006).

Article Google Scholar

Ujvari, B., Madsen, T. & Olsson, M. High prevalence of Hepatozoon Spp. (Apicoplexa, Hepatoidae) Infection in water pythons (Liasis fuscus) from tropical Australia. J. Parasitol. 90670–672 (2004).

Article PubMed Google Scholar

Zintl, A. et al. In -vitro culture in combination with the quantitative Taqman -PCR for the evaluation of Toxoplasma gondii Liability of the tissue cyst. Vet. Parasitol. 164167–172 (2009).

Article CAS PubMed Math Google Scholar

Ciloglu, A., Ellis, VA, Bernotienė, R., Valkiūnas, G. & Bensch, S. A new one-time multiplex PCR-Assay for simultaneous detection and identification by Avian Hemosporidian parasites. Parasitol. Res. 118 (1), 191–201 (2018).

Article PubMed Google Scholar

Zechmisterová, K., Javanbakht, H., Kvičerová, J. & Široký, P. for growing synonymy: identification substances of Hepatozoon And Schellackia demonstrated on northern Iranian reptiles. EUR J. Protistol. 79125780 (2021).

Article PubMed Google Scholar

Swei, A., Ostfeld, RS, Lane, RS & Briggs, CJ Effects of the experimental removal of lizards on the risk of Lyme Borreliosis. Proc. R. Soc. B: Biol. Sci. 278 (1720), 2970–2978 (2011).

Article Google Scholar

Harris, DJ, Maia, JP & Perera, A. Molecular Survey of Apicoplexa in Podarcis -Wall -Lizard recognizes Hepatozoon-, Sarcocystis and Eimeria species. J. Parasitol. 98 (3), 592–597 (2012).

Article Pubmed Math Google Scholar

Moreira, MIVBD fitness effects from Hepatozoon Blood parasites in selected lizard species. M. SC thesis. Uni. Postage. (2013).

ERRGUIBI, O. et al. Molecular examination and microscopic examination of hemoparasites that infect lizards from Morocco. Acta parasitol. 68 (3), 593–603. (2023).

Article Pubmed Math Google Scholar

Maia, JP, Perera, A. & Harris, DJ Molecular Survey and microscopic examination of Hepatozoon Miller, 1908 (Apicoplexa: Adeleorina) in Lacertiden lizards from the western Mediterranean. Folia parasitol. 59 (4), 241 (2012).

Article Google Scholar

Godfrey, SS, Nelson, NJ & Bull, cm ecology and dynamics of the blood parasite, Hepatozoon Tuatarae (Apicoplexa), in Tuatara (Sphenodon punctatus) on Stephens Island. New. ZJ Wildlif Dis. 47 (1), 126–139 (2011).

Article Google Scholar

Maia, JP, Harris, DJ, Carranza, S. & Goméz-Díaz, E. Evaluation of the diversity, the host specificity and the infection pattern of apicopan parasites in reptiles from Oman. Arabia parasitol. 143 (13), 1730–1747. (2016).

Article Math Google Scholar

De Ferreira, Ar, Perles, D., Macado, L., Prado, RZ, André, MR & CPA & Molecular Evidence of Apicoplexan Hemoparasites in Anuranen from Brazil. Parasitol. Res. 1193469–3479. (2020).

Article Google Scholar

Tomé, B., Maia, J., Perera, A., Carranza, S. & Vasconcelos, R. Parasites in a hotspot: diversity and specificity pattern of apicoplexans, which infect reptiles from the Socotra archipelago. Parasitol 148 (1), 42–52. (2021).

Article Cas Google Scholar

Merino, S. et al. Martinez de la Puente, J. Molecular Characterization of an antiquity Hepatozoon Species parasitize the “living fossil 'marsupial' Monito del Monte Dromiciops Gliroides from Chile. Biol. J. Linn. Soc. Lond. 98 (3), 568–576 (2009).

Article Google Scholar

Vilcins, IM, Ujvari, B., Old, JM & Deane, E. Molecular and Morphological description of A Hepatozoon Species in reptiles and their ticks in the Northern Territory, Australia. J. Parasitol. 95 (2), 434–442. (2009).

Article CAS PubMed Google Scholar

Martínez, J. et al. Hemoparasites and immunological parameters in Schneebunting (Plectrophenax nivalis) Nestlings. Polar Biol. 41 (9), 1855–1866 (2018).

Article Math Google Scholar

Venkatacalam, AKSB, Čepička, I., Hrazdilová, K. & Svobodová, M. Wirts specificity of Passerine Lankesterella (Apicoplexa: Coccidia). EU J. Protistol. 90126007. (2023).

Article Google Scholar

IJAZ, M. et al. First report from Hepatozoon And Lankesterella Spp. Infections in wild rodents from Pakistan and their possible effects on the blood parameters and oxidative stress markers in vital organs. Vet. Res. Communicate. 49 (1), 45. (2024).

Article Pubmed Math Google Scholar

Wozniak, EJ & Telford, SR Jr. The fate of Hepatozoon Species, of course, infect black racing drivers from Florida and water in potential mosquitoes and soft tick vectors as well as histological references to pathogenicity with unnatural taverns. Int. J. Parasitol. 21 (5), 511–516 (1991).

Article CAS PubMed Math Google Scholar