Phylogenetic analysis and antimony resistance of Leishmania major isolated from humans and rodents.

Cutaneous Leishmaniasis (CL) is one of the world's neglected diseases which is caused by Leishmania spp. The aim of this study was to assess molecular profile and antimony resistance of Leishmania isolated from human and rodent hosts. Samples were collected from suspected CL patients referred to health centres and wild rodent's traps in Gonbad-e-Qabus region, north-eastern Iran. Smears were subjected to PCR-RFLP to identify Leishmania species. In addition, ITS1-PCR products were sequenced for phylogenetic analysis. Clinical isolates and rodent samples were subjected to MTT assay to determine IC50 values and in vitro susceptibilities. Expression levels of antimony resistance-related genes were determined in CL isolates. Out of 1,949 suspected patients with CL and 148 rodents, 1,704 (87.4%) and 6 (4.05%) were positive with direct smear, respectively. Digestion patterns of BusRI (HaeIII) endonuclease enzyme were similar to what expected for Leishmania major. Phylogenetic analysis revealed that the highest interspecies similarity was found between current L. major sequences with L. major obtained from Russia and Uzbekistan. Out of 20 L. major samples tested, 13 (65%) were resistant to meglumine antimoniate (MA) treatment, with an activity index (AI) exceeding 4. The remaining 7 samples (35%) responded to MA treatment and were classified as sensitive isolates, with a confirmed sensitive phenotype based on their AI values. The comparison expression analysis of three major antimony resistance-associated genes in unresponsive clinical isolates demonstrated significant fold changes for TDR1 (4.78-fold), AQP1 (1.3-fold), and γ-GCS (1.17-fold) genes (P < 0.05). Herein, we demonstrate genetic diversity and antimony resistance of L. major isolated from human and reservoir hosts in north-eastern Iran, which could be the basis for planning future control strategies.

Leishmania RNA virus 2 (LRV2) exacerbates dermal lesions caused by Leishmania major and comparatively unresponsive to meglumine antimoniate treatment.

PURPOSE: The present study investigated the possible role of Leishmania RNA virus 2 (LRV2) in the severity of dermal lesions and treatment failure due to Leishmania major. METHODS: The drug susceptibility of 14 clinical isolates of L.major, including resistant (n = 7) and sensitive (n = 7) isolates, was checked in the J774A.1 macrophage cell line. The presence of LRV2 among isolates was investigated by the RdRp gene and semi-nested PCR. Moreover, 1 × 106 sensitive L. major LRV2+ and LRV2- promastigotes were inoculated subcutaneously into the base tails of the 40 BALB/c mice divided into 4 groups (n = 10 in each group), including clinical LRV2+, clinical LRV2-, positive control LRV2+ and negative control LRV2-. The groups were infected with a unique isolate. The lesion size and parasite burden were evaluated. RESULTS: Sensitive and resistant isolates were determined by the drug susceptibility method. A higher presence of LRV2 was observed among MA-resistant isolates (6/7) compared with susceptible isolates (4/7), which was not statistically significant (P = 0.237). On the other hand, a comparison of the lesion sizes between the LRV2+ and LRV2- BALB/c mice groups revealed that the mean size of the lesion in the LRV2+ groups was significantly higher than the LRV2- (P = 0.034). In the same direction, there was an increased parasite burden in mice inoculated with LRV2+ groups compared with the LRV2- BALB/c mice groups (P = 0.002). CONCLUSIONS: Our findings showed that the presence of LRV2 could be one of the factors contributing to exacerbating CL. Although we found a higher presence of LRV2 in the resistant isolates, it seems that further investigations are recommended to determine the detailed association between lesions' aggravation and being comparatively unresponsive to treatment.

Genetic and morphometric categorization of Taenia ovis from Sheep in Iran.

Little is known about the genetic and morphological characters of Taenia ovis. The purpose of the present study was to characterize sheep isolates of T. ovis using rostellar hook morphometry as well as mitochondrial genes sequence analysis. Ninety sheep specimens of Cysticercus ovis were collected from 18 slaughterhouses in Iran. The mean ± s.d. for total length of large and small hooks were 174.1 ± 6.4 and 116.7 ± 5.4 µm, respectively. CO1 and 12S rRNA sequence analysis showed 11 and nine haplotypes, respectively. The level of pairwise nucleotide variations between individual haplotypes of CO1 and 12S rRNA genes were 0.3-1.1 and 0.2-1.0%, respectively. Level of nucleotide variation in CO1 and 12S rRNA between T. ovis haplotypes from present study and eight other Taenia species was found to be 11.3-17.8 and 5.3-16.3%, respectively. Phylogenetic analysis clustered all T. ovis isolates into a single clade comprised of the all CO1 and 12S rRNA haplotypes. CO1 nucleotide difference between T. ovis ovis and T. asiatica was 13.6% that is lesser than the corresponding difference between T. ovis ovis and T. ovis krabbei, warranting the designation of two separate species as T. ovis and T. krabbei. Interclass correlation coefficients showed that there was no significant association between rostellar hook length variation and the variability of the mitochondrial genes.

Molecular phylogeny based on six nuclear genes suggests that Echinococcus granulosus sensu lato genotypes G6/G7 and G8/G10 can be regarded as two distinct species.

Tapeworms of the species complex of Echinococcus granulosus sensu lato (s. l.) are the cause of a severe zoonotic disease - cystic echinococcosis, which is listed among the most severe parasitic diseases in humans and is prioritized by the World Health Organization. A stable taxonomy of E. granulosus s. l. is essential to the medical and veterinary communities for accurate and effective communication of the role of different species in this complex on human and animal health. E. granulosus s. l. displays high genetic diversity and has been divided into different species and genotypes. Despite several decades of research, the taxonomy of E. granulosus s. l. has remained controversial, especially the species status of genotypes G6-G10. Here the Bayesian phylogeny based on six nuclear loci (7387 bp in total) demonstrated, with very high support, the clustering of G6/G7 and G8/G10 into two separate clades. According to the evolutionary species concept, G6/G7 and G8/G10 can be regarded as two distinct species. Species differentiation can be attributed to the association with distinct host species, largely separate geographical distribution and low level of cross-fertilization. These factors have limited the gene flow between genotypic groups G6/G7 and G8/G10, resulting in the formation of distinct species. We discuss ecological and epidemiological differences that support the validity of these species.

Genetic diversity and phylogeography of the elusive, but epidemiologically important Echinococcus granulosus sensu stricto genotype G3.

Cystic echinococcosis (CE) is a severe parasitic disease caused by the species complex Echinococcus granulosus sensu lato. Human infections are most commonly associated with E. granulosus sensu stricto (s.s.), comprising genotypes G1 and G3. The objective of the current study was to provide first insight into the genetic diversity and phylogeography of genotype G3. Despite the epidemiological importance of the genotype, it has remained poorly explored due to the ambiguity in the definition of the genotype. However, it was recently demonstrated that long sequences of mitochondrial DNA (mtDNA) provide a reliable method to discriminate G1 and G3 from each other. Therefore, we sequenced near-complete mtDNA of 39 G3 samples, covering most of the known distribution range and host spectra of the genotype. The phylogenetic network revealed high genetic variation within E. granulosus s.s. G3 and while G3 is significantly less prevalent worldwide than G1, the genetic diversity of both of the genotypes is equally high. We also present the results of the Bayesian phylogeographic analysis, which yielded several well-supported diffusion routes of genotype G3 originating from Turkey and Iran, suggesting the Middle East as the origin of the genotype.

Genetic variability of Taenia saginata inferred from mitochondrial DNA sequences.

Taenia saginata is an important tapeworm, infecting humans in many parts of the world. The present study was undertaken to identify inter- and intraspecific variation of T. saginata isolated from cattle in different parts of Iran using two mitochondrial CO1 and 12S rRNA genes. Up to 105 bovine specimens of T. saginata were collected from 20 slaughterhouses in three provinces of Iran. DNA were extracted from the metacestode Cysticercus bovis. After PCR amplification, sequencing of CO1 and 12S rRNA genes were carried out and two phylogenetic analyses of the sequence data were generated by Bayesian inference on CO1 and 12S rRNA sequences. Sequence analyses of CO1 and 12S rRNA genes showed 11 and 29 representative profiles respectively. The level of pairwise nucleotide variation between individual haplotypes of CO1 gene was 0.3-2.4% while the overall nucleotide variation among all 11 haplotypes was 4.6%. For 12S rRNA sequence data, level of pairwise nucleotide variation was 0.2-2.5% and the overall nucleotide variation was determined as 5.8% among 29 haplotypes of 12S rRNA gene. Considerable genetic diversity was found in both mitochondrial genes particularly in 12S rRNA gene.

Molecular variation in Leishmania parasites from sandflies species of a zoonotic cutaneous leishmaniasis in northeast of Iran.

BACKGROUND & OBJECTIVES: In the well-known zoonotic cutaneous leishmaniasis (ZCL) focus in Turkmen Sahara, border of Iran and Turkmenistan, ZCL has increased among humans in the past five years. The present study was undertaken to incriminate vectors of ZCL in the region, and to find molecular variation in Leishmania parasites. METHODS: The sandflies were sampled using CDC light-traps and sticky papers. All the sandflies were identified using morphological characters of the head and abdominal terminalia. DNA was extracted from the dissected thorax and attached anterior abdomen of individual female sandfly. Leishmania detection and identification of sandflies were performed using PCR, digestion of BsuRI restriction enzyme and sequencing of ITS-rDNA gene and also by semi-nested PCR to amplify minicircle kinetoplast (k) DNA of Leishmania. RESULTS: Leishmania infections were detected in 26 out of 206 female sandflies. Of the infected sandflies, 18 were Phlebotomus papatasi while eight were P. caucasicus/P. mongolensis. Two infections of L. turnica were detected, one in P. papatasi and other in P. caucasicus/P. mongolensis and the rest of the sandflies were found infected with L. major. CONCLUSION: Our finding showed that L. major had low diversity with only one common haplotype (GenBank Access No. EF413075). The novel haplotypes were discovered in L. major (GenBank Access No. KF152937) and in L. turanica (GenBank Access No. EF413079) in low frequency. These Leishmania parasites are circulating to maintain infections in the P. papatasi and P. caucasicus/P. mongolensis in Turkmen Sahara.

High resolution melting technique for molecular epidemiological studies of cystic echinococcosis: differentiating G1, G3, and G6 genotypes of Echinococcus granulosus sensu lato.

Reliable and rapid genotyping of large number of Echinococcus granulosus sensu lato isolates is crucial for understanding the epidemiology and transmission of cystic echinococcosis. We have developed a method for distinguishing and discriminating common genotypes of E. granulosus s.l. (G1, G3, and G6) in Iran. This method is based on polymerase chain reaction coupled with high resolution melting curve (HRM), ramping from 70 to 86 °C with fluorescence data acquisition set at 0.1 °C increments and continuous fluorescence monitoring. Consistency of this technique was assessed by inter- and intra-assays. Assessment of intra- and inter-assay variability showed low and acceptable coefficient of variations ranging from 0.09 to 0.17 %. Two hundred and eighty E. granulosus s.l. isolates from sheep, cattle, and camel were used to evaluate the applicability and accuracy of the method. The isolates were categorized as G1 (93, 94, and 25%), G3 (7, 4, and 4%), and G6 (0, 2, and 71%) for sheep, cattle, and camel, respectively. HRM results were completely compatible with those obtained from sequencing and rostellar hook measurement. This method proved to be a valuable screening tool for large-scale molecular epidemiological studies.

Morphological and molecular characterization of Fasciola isolates from livestock in Golestan province, northern Iran.

BACKGROUND: Fascioliasis, caused by the liver flukes Fasciola hepatica and Fasciola gigantica, is a global zoonotic helminthic disease. The livestock and human are the final hosts of the parasites. Northern Iran is an important endemic region for fascioliasis. Few studies have been conducted on the characterization of Fasciola isolates from eastern regions of the Caspian littoral of the country. OBJECTIVE: The aim of the present study was to identify F. hepatica, F. gigantica and intermediate/hybrid forms of Fasciola isolates from livestock in Golestan province, northern Iran, using morphometric and molecular tools. METHODS: Livestock livers naturally infected with Fasciola spp. were collected from Golestan slaughterhouse during 2019-2020. The worms were morphometrically studied using a calibrated stereomicroscope. Genomic DNA was extracted from all samples, and polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) was performed on internal transcribed spacer (ITS1) region using Rsa1 restriction enzyme. All the isolates were then analysed by multiplex PCR on Pepck region. RESULTS: A total of 110 Fasciola isolates were collected from the infected livers, including 94 sheep, 12 cattle and 4 goats. Morphometric analysis of 61 adult Fasciola isolates indicated that, 44 and 17 isolates belonged to F. hepatica and F. gigantica, respectively. Eighty-one and 29 isolates belonged to F. hepatica and F. gigantica using ITS1-RFLP, respectively. However, Pepck Multiplex PCR indicated 72 F. hepatica, 26 F. gigantica and 12 intermediate/hybrid forms. All 12 hybrid isolates were found in sheep host. Two isolates were identified as F. gigantica using morphometry and F. hepatica using both molecular methods. CONCLUSION: The present study confirmed the existence of both F. hepatica and F. gigantica species and reported the first molecular evidence of hybrid Fasciola isolates in ruminants of Golestan province.

Genotyping Echinococcus granulosus from dogs from Western Iran.

Cystic echinococcosis is a zoonotic infection caused by the dog tapeworm, Echinococcus granulosus. In the present study, adults of E. granulosus (n=20) were collected from 71 dogs from Western Iran and were genetically characterized using DNA sequencing of the partial mitochondrial cytochrome c oxidase subunit 1 (cox1) and NADH dehydrogenase 1 (nad1). Consensus sequences were obtained for cox1 (366) and nad1 (471) genes. Phylogenetic analysis of concatenated nad1 and cox1 nucleotide sequence data was performed using Bayesian Inference approach. Overall, the dog isolates indicated nine different sequences in cox1 and seven in nad1 genes. Three genotypes (G1 [75%], G2 [10%] and G3 [15%]) were identified from the isolates. The G2 sequences indicated 100% homology with reference G2 sequence in both cox1 (Genbank accession number M84662) and nad1 (AJ237633) genes. G3 sequences showed 100% homology with G3 reference sequence in nad1 (AJ237633), but displayed two different cox1 profiles, each having 99% homology with reference G3 sequence (M84663). In the phylogenetic tree all of the isolates were grouped into a distinct cluster corresponding to the G1-G3 complex with relevant reference sequences. The presence of G1 genotype (sheep strain) of E. granulosus sensu stricto as dominant genotype in dogs is emphasized. To the best of our knowledge, this study established the first record of E. granulosus sensu stricto, G2 genotype in Iran.

First molecular evidence of Theileria lestoquardi in small ruminants in northern Iran.

Ovine theileriosis as a critical agent in small ruminant production, can cause lethal infections. Different species of Theileria have been reported in various parts of the world, and each species causes different diseases in the host. This is the first molecular study to investigate the prevalence of ovine theileriosis and identify the dominant Theileria species in northern Iran. A number of 220 small ruminants, including sheep and goats, were randomly sampled from 22 flocks. Peripheral blood smears were stained by the Giemsa staining method. As well as for species identification, all samples were examined by PCR. From 220 samples, 160 and 60 were sheep and goat, respectively. By the Giemsa staining method, Theileria parasite was observed in 20 (9%) samples. But by polymerase chain reaction (PCR) method, 30 (13.6%) samples were positive for Theileria species. Theileria lestoquardi was the most common species found in these animals. The high prevalence of theileriosis in small ruminants demonstrates the emergence of ovine theileriosis in Mazandaran and Golestan provinces in northern Iran.

Role of neglected parasitic diseases in the era of COVID-19 pandemics.

There are some doubts about the exact relationship between neglected infectious diseases (NIDs) and COVID-19 disease, which remains to be clearly defined. The present review summarized the effect of parasitic infections as the risk factors or protective agents in the COVID-19 pandemic. Parasites could proficiently modulate immune responses. Thus, parasitic infections could have a different impact on the incidence and clinical severity of COVID-19 in different regions of the world. Also, restoring programs to prevent, treat, and control NIDs, in particular helminths, could help in reducing the incidence and mortality of COVID-19 in endemic areas and help to increase vaccination effectiveness. Changes in the gut microbiome associated with helminth infection may have systemic immunomodulatory effects toward suppressing host immune responses, reducing vaccine efficacy and increasing the severity of other infectious diseases. The cytokine storm observed in severe cases of COVID-19 is characterized by a predominance of proinflammatory cytokines, such as IL-6. However, it is possible that helminth infection could change the outcome of infection by modifying the Th2 response to limit the inflammatory component; this would be particularly apparent in areas endemic for helminthic infections, which suggests a possible protective effect against COVID-19. Because parasitic infections affect more than 2 billion people throughout the world, their impact on COVID-19-associated effects on public health could be considerable. Further studies with larger sample sizes would be needed to explore the possible role of neglected parasitic infections in the COVID-19 pandemic.

Expression and production of protoscolex recombinant P29 protein and its serological evaluation for diagnosis of human hydatidosis.

Cystic Echinococcosis/Hydatidosis considered as one of the most important parasitic diseases in humans and animals across the world. The goal of the present study was to determine a native antigen with an acceptable sensitivity and specificity to be used in the human hydatid cyst diagnostic methods. In the present study, recombinant P29 antigen was used to detect the antibodies in the serum of patients with hydatid cysts of the liver. In fact, purified recombinant P29 protein is used as an antigen in ELISA. In order to evaluate the recombinant P29 protein for diagnostic ELISA, 25 serums obtained from people harboring the hydatid cysts were tested. The result of the gene expression on a 12% SDS-PAGE gel showed a band with a length of 28 KD. Also, 28KDa band was observed through the reaction of recombinant P29 protein with Anti T7-tag monoclonal antibody in the western blotting method. This protein showed satisfactory results in detecting the hydatid cyst antibodies in the serum of patients having hydatid cysts. Twenty two of 25 hydatidosis serums positively reacted in ELISA using with P29 protein, indicating in 92% of ELISA sensitivity, 95% of specificity, 95.83% of positive predictive value, and 90.42% of negative predictive value for recombinant P29 protein. Whereas the produced recombinant protein P29 showed promising results in the diagnosis of hydatidosis but of more research needs to be done to reach a more accurate conclusion.

Corynosoma caspicum (Acanthocephala, Polymorphidae), as a heavy metal bioindicator in the fish Gasterosteus aculeatus from the Caspian Sea, northern Iran.

Previous marine biology studies found that the concentration of heavy metals in some parasites of fish such as acanthocephalans can be a proper bioindicator. Therefore, we attempted to measure five heavy metal concentrations in the tissues of the fish Gasterosteus aculeatus (G. aculeatus) and its acanthocephalan parasites, Corynosoma caspicum (C. caspicum) from the Southern Caspian Sea, northern Iran. G. aculeatus (three-spined stickleback) was collected from the south of the Caspian Sea, Mazandaran Province, northern Iran. After tissue preparation, the heavy metal concentrations in fishes and acanthocephalans were obtained using the tissue dissolution technique and an atomic absorption spectrophotometer. The concentrations of chromium (Cr), cadmium (Cd), lead (Pb), zinc (Zn), and copper (Cu) in the skin, liver, muscle, and intestine tissues of the fish and its parasites, C. caspicum, were measured and compared. Eighty (32%) of 250 collected fish were infected by at least one acanthocephalan parasite. The Cr indicated the highest concentration (5.329±3.275) of the heavy metals in acanthocephalan, even more than the skin, liver, and muscle of infected fishes. Cd had the lowest concentration (0.0333±0.0075) of heavy metals in acanthocephalan, but it was still higher than the concentration in the infected fishes' skin, liver, muscle, and intestine tissues. Our findings indicated that C. caspicum parasites can be considered extremely sensitive early-alert bioindicators, particularly in sensitive and under-threat environments with low pollution levels.

Global prevalence of Giardia duodenalis in cattle: A systematic review and meta-analysis.

Giardia duodenalis is an important intestinal parasite responsible for diarrhea in humans and animals worldwide. Up to now, G. duodenalis infections in cattle have been reported in many studies around the world. Hence, the aim of the present study is to report on the distribution of G. duodenalis in cattle at global scale and to evaluate the global prevalence, risk factors and genetic characterization of G. duodenalis infection among cattle worldwide. International databases were systematically searched to identify relevant studies. A random-effects meta-analysis model was used to estimate the overall and the subgroup-pooled prevalence of G. duodenalis across studies, and the variance between studies (heterogeneity) was quantified by I2 index. One hundred and fifty-eight articles (including 195 datasets), from 48 countries met eligibility criteria for analysis. Considering detection methods, the pooled prevalence was estimated to be 24% (95% confidence interval (CI), 19-30%) using copro-antigen techniques, 22% (95% CI, 17-28%) using molecular, and 16% (95% CI, 12-20%) using microscopic detection. Molecular methods showed that the highest number of reports were associated with assemblage E (45/46; 97.83% studies), assemblage A (33/46; 71.74% studies) and assemblage A+E (10/46; 21.74% studies). The pooled prevalence different of subgroups (WHO regions, countries, and type of cattle) were analyzed separately. Moreover, a significant association was observed between G. duodenalis infection with cattle suffering from diarrhea (odds ratio (OR), 2.61; 95% CI, 1.50-4.55) and pre-weaned calves (OR, 1.79; 95% CI, 1.08-2.95). These results suggest that the corresponding control scheme and effective management measures should be formulated to reduce the transmission of G. duodenalis infection according to the difference of geographical conditions in different areas.

Domestic dogs carriers of Leishmania infantum, Leishmania tropica and Crithidia fasciculata as potential reservoirs for human visceral leishmaniasis in northeastern Iran.

BACKGROUND: In recent years, cases of human visceral leishmaniasis (HVL) have been reported in some districts of Golestan Province, northeastern Iran, particularly in rural areas. Recent epidemiological evidence in Leishmania infantum endemic regions of in Iran indicates approximately 50%-80% of seropositive dogs are asymptomatic for Leishmania infection. OBJECTIVES: The goal in this study was to determine Leishmania species infecting domestic dogs in Golestan Province, Iran. METHODS: Between 2015 and 2016, blood samples were obtained from 100 domestic dogs in rural regions of Golestan Province, northeastern Iran. All samples were tested for anti-Leishmania antibodies using a direct agglutination test (DAT), and for Leishmania spp. kinetoplast DNA (kDNA) using PCR. RESULTS: Seven (7%) dogs were antibody positive and 25 dogs (25%) were Leishmania spp. DNA positives by PCR positive for leishmaniasis. Four of the seven (71%) antibody-positive dogs and 19 of the 25 (76%) PCR-positive dogs were asymptomatic. The rate of infection detected by PCR was significantly higher in male dogs (21/75, 28%) than that in female dogs (4/25, 16%). The ITS1 PCR-RFLP assay identified the presence of L. infantum, L. tropica or Crithidia spp. in the 25 PCR-positive samples. CONCLUSIONS: The high proportion of asymptomatic dogs in the study areas represent they act as potential reservoirs in the transmission cycle of Leishmania spp. and also Crithidia fasciculata as an emerging agent for the first time. Moreover, our data showed that PCR is a more reliable assay than DAT for detecting Leishmania spp. infection among asymptomatic dogs.

Chromosome-scale Echinococcus granulosus (genotype G1) genome reveals the Eg95 gene family and conservation of the EG95-vaccine molecule.

Cystic echinococcosis is a socioeconomically important parasitic disease caused by the larval stage of the canid tapeworm Echinococcus granulosus, afflicting millions of humans and animals worldwide. The development of a vaccine (called EG95) has been the most notable translational advance in the fight against this disease in animals. However, almost nothing is known about the genomic organisation/location of the family of genes encoding EG95 and related molecules, the extent of their conservation or their functions. The lack of a complete reference genome for E. granulosus genotype G1 has been a major obstacle to addressing these areas. Here, we assembled a chromosomal-scale genome for this genotype by scaffolding to a high quality genome for the congener E. multilocularis, localised Eg95 gene family members in this genome, and evaluated the conservation of the EG95 vaccine molecule. These results have marked implications for future explorations of aspects such as developmentally-regulated gene transcription/expression (using replicate samples) for all E. granulosus stages; structural and functional roles of non-coding genome regions; molecular 'cross-talk' between oncosphere and the immune system; and defining the precise function(s) of EG95. Applied aspects should include developing improved tools for the diagnosis and chemotherapy of cystic echinococcosis of humans.

First molecular identification of Sarcocystis miescheriana (Protozoa, Apicomplexa) from wild boar (Sus scrofa) in Iran.

Sarcocystis isolate obtained from the thigh muscle of a wild boar (Sus scrofa), captured from Gilan Province, northern Iran, was subjected to molecular analysis. Genomic DNA was obtained using a DNA extraction tissue kit and Polymerase chain reaction (PCR) for amplification of the 18S ribosomal DNA region yielded an 842 bp DNA band on agarose gel. Analysis of DNA sequencing by BLAST confirmed the isolate as Sarcocystis miescheriana and the sequence was deposited in GenBank by Accession No. GU395554. This is the first molecular identification of an isolate of S. miescheriana in Iran.

Sequence analysis of cox1 and nad1 genes in Echinococcus granulosus G3 genotype in camels (Camelus dromedarius) from central Iran.

Nineteen hydatid cyst isolates collected from camels in central Iran were subjected to sequences analysis of mitochondrial cytochrome c oxidase subunit 1 (cox1) and NADH dehydrogenase subunit 1 (nad1) genes. A consensus sequence obtained containing 366 nucleotides for cox1 and 471 nucleotides for nad1 genes. Overall, the camel isolates indicated five different sequences in cox1 and nine in nad1 genes. The sequences analysis indicated that 26.3%, 42.1%, and 31.6% of isolates belonging to G1, G3, and G6 genotypes of Echinococcus granulosus, respectively. The isolates with G3 genotype indicated one cox1 sequence having 100% homology with reference G3 sequence (AN: M84663) and two different nad1 sequences, one having 100% homology with reference G3 sequence (AN: AJ237634) and the other with a silent mutation (G to A) in position 279. The presence of G3 genotype (buffalo strain) of E. granulosus as dominant genotype in camels is emphasized. As G3 genotype has formerly been reported in human, the epidemiological role of camels is warranted in future surveys.