Mina Hassanpour scite author profile

Mina Hassanpour

3Publications

24Citation Statements Received

106Citation Statements Given

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Affiliations

Golestan University of Medical Sciences, Golestan University

Publications

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Molecular and serologic characterization of rotavirus from children with acute gastroenteritis in northern Iran, Gorgan

et al. 2019

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Background The pattern and distribution of human rotavirus genotypes in young children in developing countries play an important role in epidemiological studies, as well as providing a strategy for the development of future rotavirus vaccine. Methods We evaluated stool samples from 349 children with acute gastroenteritis from Northern Iran (Gorgan city, Golestan province). Polyacrylamide Gel Electrophoresis (PAGE) and Latex Agglutination Test (LAT) were utilized to determine the prevalence of human rotavirus in fecal samples. Moreover semi-multiplex RT-PCR technique was carried out in order to determine the P and G genotypes of human rotavirus in rotavirus-positive samples. Results A total of 46 rotavirus-positive samples were G and P genotyped. Whereas 28 (60.8%) fecal specimens contained only one rotavirus strain, 14 (30.4%) were mixed rotavirus infections and 4 (8.8%) was non-typeable. Overall, during the study, 57.82% of strains identified as genotype G1, G2 (18.70%), G3 (4.69%), G4 (3.13%), G8 (3.13%), G9 (6.26%) and non-typeable G (6.26%). From all these mentioned rotavirus strains, 46 were characterized as P [8] (97.80%) and P [4] (2.20%).Our analysis of the G and P genotyping of strains from all 46 rotavirus-infected children has revealed that 4/46(6.26%) of G type strains were non-typeable. The predominant single G/P combination was G1P [8] (57.82%), followed by, G2P [8] (16.98%), G2P [4] (1.72%), G3P [8] (4.69%), G4P [8] (3.13%) G8P [8] (3.13%), G9P [8] (6.26%) and four cases of non-typeable G (6.26%). Rotavirus was detected in 39 specimens (11.17%) by PAGE and in 38 specimens (10.88%) by LAT. Both tests were 100% specific; however, the LAT was 82.61% sensitive compared to the PAGE, which was 84.78% sensitive. Conclusions The results suggest that to characterize rotavirus strains as well as design new effective vaccines for children with acute gastroenteritis, a large-scale study is needed in future.

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Viruria of Human BK Virus and John Cunningham Virus among Renal Transplant Recipients and Healthy Control in Southeast of Caspian Sea

et al. 2021

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Background: Members of the Polyomaviridae family, BK virus (BKV), and John Cunningham virus (JCV) are linked to polyomavirus-associated nephropathy-associated transplant rejection in immunodeficient patients. Objective: The aim of the study was to evaluate the prevalence of BKV and JCV in immunocompetent individuals in the north of Iran. Methods: Ninety-one urine samples were obtained from renal transplant recipients with a mean age of 39.78 ± 11.19 years. A healthy control group of 65 volunteers with an average age of 40.32 ± 10.7 years also contributed. After DNA extraction, positive cases were detected through PCR. Genotyping was done by alignment and phylogenetic tree construction of the VP1 region against all known JCV and BKV genotypes. Results: The prevalence of BKV and JCV was 15.38 and 19.78%, respectively. JCV was detected in 7.69% of the control group. The prevalence of the BKV between the case and control groups was significant (p < 0.0001). There was no significant association between BKV and JCV and duration of dialysis (p > 0.05). Overall, 62.16% of JCV cases were genotype I. Besides, genotype II was dominant within patients with BKV-positive patients. Discussion: The results obtained here show a relatively lower prevalence of BKV and JCV in immunocompromised renal transplant receivers and healthy control than those reported from other areas in Iran. JCV genotyping was evaluated for the first time in Iran. Genotype I for JCV and genotype II for BKV were dominant genotypes in the north of Iran.

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A metagenomic survey on Solanum tuberosum virome revealed environmental contamination of a laboratory-developed strain of SARS-CoV-2

Hassanpour

Mohebbi

2023

Preprint

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Metagenomics is a promising approach to discovering viral sequences in environmental samples. We used recently published RNA-Seq data of Solanum tuberosum (S. tuberosum) from China for a metavirome study. Several environmentally related non-intact viruses read from forest animals, moths, bacteria, and amoeba were detected. Further investigation resulted in non-indigenous sequences of SARS-CoV-2 genomes of lineage B with novel substitutions. Three substitutions, including A22D and A36V in the envelope protein and Q498H in the spike glycoprotein that were recently reported from a laboratory strain virus with enhanced virulence, were detected in all samples. Further substitutions at ORF1ab were also uncovered. These were L1457V, D4553N, W6538S, I1525T, D1585Y, D6928G, N3414K, T3432S. Two unexpected frameshifts, ORF1a:2338–4401 and ORF1a:3681–4401, were noticed within the ORF1ab. The genomic evidence and geographical evidence of lab leaks are also provided. The findings of the presented study highlight the threats of the emerged potentially severe genotypes bearing substitutions that are not yet clinically reported. More studies are warranted to uncover the role of the novel substitutions in the severity of SARS-coV-2

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Mina Hassanpour

Molecular and serologic characterization of rotavirus from children with acute gastroenteritis in northern Iran, Gorgan

Viruria of Human BK Virus and John Cunningham Virus among Renal Transplant Recipients and Healthy Control in Southeast of Caspian Sea

A metagenomic survey on Solanum tuberosum virome revealed environmental contamination of a laboratory-developed strain of SARS-CoV-2

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