Seyedeh Mahya Marashiyan scite author profile

Seyedeh Mahya Marashiyan

3Publications

3Citation Statements Received

63Citation Statements Given

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Affiliations

Tehran University of Medical Sciences, Sari Agricultural Sciences and Natural Resources University

Publications

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Clinical whole‐exome sequencing analysis reveals a novel missense COL11A1 mutation resulting in an 18‐week Iranian male aborted fetus with Fibrochondrogenesis 1: A case report

Mirtavoos-Mahyari

Ajami

Mehrtash³

et al. 2022

Clinical Case Reports

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Fibrochondrogenesis 1, an autosomal recessive syndrome, is a rare disease that causes short‐limbed skeletal dysplasia. Mutations in the gene encoding the α1 chain of type XI collagen (COL11A1) are seen to be the main cause of this disease. We present an 18‐week Iranian male aborted fetus with Fibrochondrogenesis 1 from consanguineous parents. Whole‐exome sequencing revealed a novel missense variant from G to A in exon 45 of 68 in the COL11A1 gene (NM_080629.2: c.3440G > A, [p.G1147E, g.103404625]). The mutation was confirmed by Sanger sequencing and further, MutationTaster predicted this variant to be disease‐causing. Bioinformatic analysis suggests that this variant is highly conserved in both nucleotide and protein levels, suggesting that it has an important function in the proper role of COL11A1 protein. In silico analysis suggests that this mutation alters the COL11A1 protein structure through a Glycine to Glutamic acid substitution.

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Evaluation of Recombinant SRS3 Antigen for Diagnosis of Toxoplasmosis by Enzyme-Linked Immunosorbent Assay

Marashiyan

Moradian

Saadatnia

et al. 2016

Arch Clin Infect Dis

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Clinical Whole-Exome Sequencing Analysis Reveals a Novel Missense COL11A1 Mutation Resulting in an 18-Week Iranian Male Aborted Fetus with Fibrochondrogenesis 1: A Case Report

Mirtavoos-Mahyari¹,

Ajami²,

Mehrtash³

et al. 2021

Preprint

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BackgroundFibrochondrogenesis 1, an autosomal recessive syndrome, is an infrequent and rare disease, causing short-limbed skeletal dysplasia. This syndrome is clinically characterized and distinguished by a small nose and anteverted bares, flat midface, shortened long bones, and a protuberant abdomen. Mutations in the gene encoding the α1 chain of type XI collagen (COL11A1) are seen to be the main cause of this disease.Case PresentationWe present an 18-week Iranian male aborted fetus with Fibrochondrogenesis 1 from consanguineous parents. Whole-exome sequencing (WES) revealed a novel missense variant from G to A in exon 45 of 68 in the COL11A1 gene (NM_080629.2: c.3440G>A, [p.G1147E, g.103404625]). The mutation was confirmed by Sanger sequencing and further, MutationTaster predicted this variant to be disease-causing.ConclusionBioinformatic analysis suggests that this variant is highly conserved in both nucleotide and protein levels, suggesting that it has an important function in the proper role of COL11A1 protein. In-silico analysis suggests that this mutation alters the COL11A1 protein structure through a Glycine to Glutamic acid substitution. This is a novel mutation and a rare variant as this variant is not reported in gmomAD, ExAC, or 1000 genome databases.To the best of the authors’ knowledge, this is the first study to report a novel pathogenic mutation in COL11A1 in association with Fibrochondrogenesis 1. Therefore, we suggest that WES can be used as a robust method to achieve rapid diagnosis and identification of pathogenic and novel mutations in patients.

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