Author : Mansoor J. Alkhaled


Molecular Evaluation of E198A SNP in the iso-type 1 β – tubulin gene of Haemonchus contortus isolated from sheep in Al-Diwanyiah-Iraq

Akram Madlool Alzyadi; Mansoor Jadaan Alkhaled

Iraqi Journal of Veterinary Sciences, In Press
DOI: 10.33899/ijvs.2022.133596.2261

This study investigated the benzimidazole resistance in Haemonchus contortus parasitic nematodes from sheep from October 2021 to December 2022 in AL-Diwanyiah city/Iraq and samples were processed at the laboratory of Parasitology in Veterinary Medicine College of Al-Qadissyiah University through the detection of E198A mutation and SNP polymorphism of the β-tubulin gene at this codon position. A total of 90 adult H. contortus samples collected from abomasum of sheep (n = 400) and then tested by qPCR and tetra-primer ARMS-PCR. Of these, three different genotypes have been found for E198A SNP: heterozygous (RS), homozygous (SS), and homozygous resistant genotype (RR). The frequencies for these genotypes were 31.11% heterozygous, 57.77% homozygous, and 11.11% homozygous resistant. The current study indicated for the first time the spread of benzimidazole resistance for H. contortus of sheep in Iraq / AL-Diwnayiah by utilizing qPCR and tetra-primer ARMS-PCR. It is speculated that the BZ-resistance is due to excessive and irregular H. contortus drug abuse and inter-species transfer between ruminants at the commonly grazing pastures and from imported sheep as well.

Molecular analysis of Cryptosporidium species in domestic goat in central Iraq

Akeel M. Al-Musawi; Abdul Hussein H. Awad; Mansoor J. Alkhaled

Iraqi Journal of Veterinary Sciences, 2022, Volume 36, Issue 4, Pages 1041-1045
DOI: 10.33899/ijvs.2022.132974.2155

Cryptosporidium spp. is a significant parasitic disease that results in diarrhea and gastroenteritis in humans and animals worldwide. The present study aimed to investigate the molecular diversity of Cryptosporidium species in domestic goats. A total of a hundred feces samples were collected from four locations in Babylon city in central Iraq. All the samples were investigated phenotypically using a modified Ziehl-Neelsen stain method and genotypically using conventional and nested PCR methods based on a partial sequence of heat shock protein 70 (Hsp70) and 60 kDa glycoprotein (gp60) genes, and finally, phylogenetic analysis method. The molecular results showed five species of Cryptosporidium, including C. parvum, C. hominis, C. ryana, C. xiaoi, and C. bovis. The phylogenetic results of partial sequence of gp60 gene for C. parvum and C. hominis isolate two subtypes were established IIdA21G1 and IIdA19G1 belong to C. parvum. For C. hominis, three subtypes were detected: IbA21G2, IbA13G3, and IbA19G2. This study showed that Cryptosporidium parvum (zoonotic) is more prevalent than other Cryptosporidium species in goats from this area. This suggests that zoonotic transmission is the primary mode of transmission of Cryptosporidium infection in Babylon province.

Major-surface-protein-4-gene-based detection of Anaplasma marginale isolated from sheep in Al-Diwaniyah province, Iraq

Saba F. Klaif; Asaad J. Abid; Monyer A. Al-Fatlawi; Mansoor J. Ali

Iraqi Journal of Veterinary Sciences, 2022, Volume 36, Issue 1, Pages 85-88
DOI: 10.33899/ijvs.2021.129230.1635

This study was purposed for confirming detection and typing of Anaplasma spp in infected sheep from Al-Diwaniyah province, Iraq. Sampling of 50 blood specimens was performed from clinically-identified infection of anaplasmosis. The samples of the blood were subjected to DNA extraction followed by polymerase-chain-reaction (PCR)-based detection of the Anaplasma marginale using major surface protein (MSP4) gene. The results have shown that 8 blood samples were infected with A. marginale. The PCR-based identification has revealed a confirmative identification of the Anaplasma marginale in the infected sheep. The study identifies Anaplasma marginale as a member of infectious agents that affect sheep in the study city. 

Morphological and phylogenetic characterization of Oestrus ovis larvae in sheep: Al-Qadisiyah province, Iraq

Nadia S. Alhayali; Mohenned A. Alsaadawi; Monyer A. Al-Fatlawi; Mansoor J. Alkhaled

Iraqi Journal of Veterinary Sciences, 2022, Volume 36, Issue 1, Pages 133-137
DOI: 10.33899/ijvs.2021.129529.1656

The fly larvae infect the nasal cavities and sinuses (frontal and maxillary) of sheep, goats, and a range of wild ruminants, forming a disease called oestrosis (Nasal myiasis or nasal bot). The disease is one of the significantly diseases for the Iraqi small ruminant industry that causes detrimental economic losses. The current work was carried out to morphologically- and molecularly-characterize O. ovis larvae collected from sheep in a slaughterhouse in Al-Qadisiyah province, Iraq. The study depended on collecting 20 larvae (at different stages) from 20 sheep from 15 October till 17 December 2020. The morphological examination was done using a stereomicroscope and relying on larval characteristic features, including the posterior end, spiracles, and cephalopharyngeal skeleton. The molecular characterization was performed utilizing polymerase chain reaction (PCR) and partial gene sequencing (PGS) methods of the cytochrome c oxidase subunit I (cox1) gene at 700-bp and 300-bp regions. Morphologically, the first-stage larvae (L1) showed characteristic mouth hooks, while the second-stage larvae (L2) revealed clear terminal stigmas. For the third-stage larvae (L3), the color of body segments and their spines' were the most important features for this larval stage. The PCR showed amplification at both regions 700bp and 300bp, in 8 and 7 isolates, respectively. The PGS revealed 15 different local isolates in genetic level aligned with isolates from Kyrgyzstan, Italy, Spain, and Turkey. This study shows the important strain differences of O. ovis that infect the local sheep in Al-Qadisiyah province, Iraq.

Molecular identification of allelic genotypes of pyrethroid-insecticide resistance in housefly, Iraq

Monyer Abdulameir Abd Alfatlawi; Mansour Ali; Hassan Naser

Iraqi Journal of Veterinary Sciences, 2019, Volume 33, Issue 2, Pages 209-212
DOI: 10.33899/ijvs.2019.125538.1060

According to global-wide presence of insecticides resistance to pyrethroids, the current study identified the purpose to detect the allelic genotypes regarding this issue in house flies in Iraq. From the governorate of Al-Qadisiyah, Iraq, 60 morphologically and molecularly recognized house flies were caught from 6 different regions. Using a technique called polymerase chain reaction (PCR) amplification of specific allele (PASA), PCR was employed to reveal the presence of allele-genetic variations in the para-type sodium channel (para) gene to recognize knockdown resistance (kdr) mutation from the homozygous-wild type of complete susceptibility (sus/sus) to the mutated-homozygous type of complete resistance (kdr/kdr) or to the mutated-heterozygous type (kdr/sus). Here, these genotypes were targeted using specific primers to identify these genetic variations. The results have declared the presence of the sus/sus at 100%-frequency rate in all flies, and none of the other genotypes were detected (0%) in all flies. This valued piece of result indicates the reality of resistance persistence due to lack of insecticide-spraying programs in the governorate. This study provides high-quality information about the current status of insecticide resistance in house flies in Iraq about supporting the fact of genetic-base development of such resistance via frequent use of insecticides.

Microscopic identification, molecular and phylogenetic analysis of Babesia species in buffalo from slaughter house in Al-Najaf city of Iraq

Rashaa Ateaa; Mansour Alkhaled

Iraqi Journal of Veterinary Sciences, 2019, Volume 33, Issue 2, Pages 251-258
DOI: 10.33899/ijvs.2019.162882

Babesia is one of hemoprotozoan parasite transmitted by arthropod vectors which responsible for causing of Babesiosis disease in bovine worldwide. The present study was designed for microscopic identification, molecular, and phylogenetic analysis of Babesia species in buffalo from slaughter house in Al-Najaf city of Iraq. The study performed in three months of summer season (August into September 2017) and animals ages and sex were included in this study. The direct microscopic prevalence results were show highest prevalence of haemoprotozoa prevalence at Babesia sp. 45.74%. The prevalence of Babesia sp. related to animal sex, were show in male 43.48% and female was 52%, with non-significant differences. The Prevalence of Babesia sp. related to age were show 12.50%, 92.86% and 30% in young, adult and old age respectively with significant differences (P<0.05). The prevalence of Babesia sp. related to month of study were show. 28.57%, 62.50% and 42.86 in August, September and October respectively and with non-significant differences. Molecular study results were based on PCR and DNA sequencing method by phylogenetic tree analysis (MEGA 6.0) and NCBI-BLAST Homology Sequence Identity to differentiation Babesia species typing. The Babesia species prevalence results were show identified two Babesia species, high prevalence of Babesia bovis (38.30%) were closed related to NCBI-Blast Babesia bovis (HQ264126.1) with homology sequence identity 97-100% and Babesia bigemina 7.45% were closed related to NCBI-Blast Babesia bigemina (KU206291.1) with homology sequence identity 95-99%, then 43 Babesia species includes (B. bovis and B. bigemina) were submitted into NCBI-Genbank and provided accession numbers (MH503811-MH503853). In conclusion, this study concluded that Phylogenetic tree and homology sequences identity was show accurate in differentiation of Babesia species, and these species can be isolated at from local water buffalo from slaughter house in Al-Najaf city, of Iraq.