Your search keyword '"Varzi, Ali Mohammad"' showing total 2 results

1. Confirmed non-invasive prenatal testing for foetal Rh blood group genotyping along with bi-allelic short insertion/deletion polymorphisms as a positive internal control.

Author

Armstrong-Fisher S, Koushki K, Mashayekhi K, Urbaniak SJ, van der Schoot E, and Varzi AM

Subjects

DNA genetics, Female, Fetus, Genotype, Humans, Pregnancy, Rh-Hr Blood-Group System, Cell-Free Nucleic Acids, Prenatal Diagnosis methods

Abstract

Background: Determination of foetus rhesus blood group at risk of hemolytic disease has potential application for early non-invasive prenatal testing (NIPT). There are several challenges in developing NIPT rhesus blood group genotyping assays by using cell-free foetal DNA (cff-DNA) in plasma of RhD-negative pregnant women. So, the aim of this study was optimization of Real-time PCR assay for NIPT rhesus genotyping and development of Bi-allelic short insertion/deletion polymorphisms (INDELs) as internal control to optimise and validate rhesus genotyping based on Real-time PCR to avoid false or negative results., Material and Methods: NIPT Rhesus genotyping including RHD (exon 7), RHCc, and RHEe genes were performed by TaqMan Real-time PCR on 104 maternal samples at different gestation ages (12 to ≥40 weeks) from 51 alloimmunized pregnant women. The sensitivity protocol was confirmed with standard DNA samples. Eight selected INDELs were designed and used to detectable cff-DNA in maternal plasma. INDELs frequency and inheritance were determined on 6 family and 61 unrelated individuals. Finally, multiplex Real-time PCR was performed for each sample with INDELs pairs and Rh probes., Results: The results showed 100% accuracy rhesus typing for RHD, RHC and RHE assays and 95.7% accuracy for RHc. Also, eight selected INDELs as internal control for NIPT were 100% concordance for typed samples., Conclusion: The Real-time PCR assay is a suitable method with high sensitivity and specificity for rhesus typing as NIPT for prediction of hemolytic disease in foetuses. The INDELs described here are suitable internal control for confirmation of NIPT on cff-DNA., (© 2022 British Blood Transfusion Society.)

Published

2022

2. Molecular and immunochemical characterization of Pop n 2: A new allergen of Populus nigra pollen.

Author

Shams MH, Assarehzadegan MA, Eskandari N, Masjedi M, Kheirandish F, Ghasemi R, Ganjalikhani Hakemi M, Varzi AM, Safari M, Sohrabi SM, and Abdoli Sereshki H

Subjects

Allergens, Amino Acid Sequence, Cloning, Molecular, Cross Reactions, Humans, Immunoglobulin E, Plant Proteins genetics, Pollen, Recombinant Proteins, Populus genetics, Populus metabolism

Abstract

Background: Pollen is one of the most common allergens that cause respiratory allergies worldwide. Pollen grains from poplars have been reported as important sources of pollinosis in many countries., Objective: The aim of the present study was to determine the molecular and immunochemical characterization of Pop n 2, a novel allergen of Populus nigra (P nigra) pollen extract., Methods: In this study, the pollen extract of P nigra was analysed by SDS-PAGE, and the allergenic profile was determined by IgE immunoblotting and specific ELISA using the sera of twenty allergic patients. The coding sequence of Pop n 2 was cloned and expressed in the Escherichia coli BL21 (DE3) using plasmid the pET-21b (+). Finally, the expressed recombinant Pop n 2 was purified by affinity chromatography., Results: Pop n 2 belongs to the profilin family with a molecular weight of approximately 14 kDa. Pop n 2 is the most IgE-reactive protein (about 65%) in the P nigra pollen extract. The cDNA sequencing results indicated an open reading frame 396 bp that encodes 131 amino acid residues. The results of ELISA and Immunoblotting assays showed that recombinant Pop n 2 could react with the IgE antibody in patients' sera, like its natural counterpart., Conclusion: Our data revealed that Pop n 2 is a significant allergen in the P nigra pollen extract. Moreover, we observed that the recombinant Pop n 2 produced by the pET-21b (+) vector in the E colisystem acts as its natural counterpart., (© 2021 John Wiley & Sons Ltd.)

Published

2021