TY - JOUR AU - Noorbakhsh, Negar AU - Zamani, Mina AU - Sedaghat, Alireza AU - Zeighami, Jawaher AU - Foroughi, Farangis AU - Parvas, Sahere AU - Saberi, Alihossein AU - Hamid, Mohammad AU - Ghanavati, Roya AU - Shariati, Gholamreza AU - Galehdari, Hamid PY - 2023 DA - 2023/05/12 TI - Molecular and in Silico Analysis of <i>MEFV</i> Variants in Familial Mediterranean Fever Patients in Southwest Iran JO - OBM Genetics SP - 181 VL - 07 IS - 02 AB - Familial Mediterranean Fever (FMF) is classified as an autoinflammatory genetic disease inherited by mutations in MEFV. These mutations can affect the dysregulation of inflammatory processes in the human body and lead to fever and pain in the chest and abdomen. Many known missense mutations in MEFV are linked to FMF disease. Mutations in MEFV in most cases are located on the short arm of chromosome 16 and can impair the function of the pyrin protein. In this research, we aimed to examine the entire exons of MEFV for 13 cases (8 females and 5 males) with FMF diagnosis from Southwest Iran. Hence, we amplified and sequenced the exons of MEFV and then, in-silico analysis of detected changes was applied to estimate the probability of pathogenicity for the identified variants. Finally, we found five single nucleotide substitutions, including M694V (c.2080A>G), R202Q (c.605G>A), E447G (c.1430A>G), E148Q (c.442G>C), and V726A (c.2177T>C), in the under-represented patients. The most frequent mutations in our study were R202Q (38.46%) within exon 2 and M694V (30.7%) within exon 10. Other mutations accounted for a further 23% of the alleles, including E477G (7.6%), E148Q (7.6%), and V726A (7.6%). According to the in-silico analyses, including variation pathogenicity, protein structure, and allele frequency assessments, we concluded that all these variants could be considered in FMF molecular profiling in southwest Iran. SN - 2577-5790 UR - https://doi.org/10.21926/obm.genet.2302181 DO - 10.21926/obm.genet.2302181 ID - Noorbakhsh2023 ER -