TY - JOUR AU - Issa Jessika AU - Fatimata Mbaye AU - Fatou Ly AU - Abdallah Diallo AU - Pape Mbacké Sembène PY - 2022 DA - 2022/12/10 TI - Variations Analysis of Mitochondrial Cytochrome b (MT-CYB) Gene in Malnourished Children from Senegal JO - Pediatrics and Neonatal Medicine VL - 2 IS - 1 AB - Introduction: Child malnutrition is a major cause of infant morbidity and mortality worldwide and thus a major public health problem. The study of interactions between nutrition and genes— nutritional genomics—encompasses two domains: nutrigenetics and nutrigenomics. Malnutrition (deficiency or excess) can thus affect gene expression and genome stability. Objective: The objective of this work is to investigate mutations of interest of Mitochondrial Cytochrome b (MT-CYB) that may be related to child malnutrition and to study the genetic diversity of MT-CYB. Materials and methods: We analyzed the variability of MT-CYB in 23 malnourished children and six healthy children via PCR-sequencing. The search of mutations in the MT-CYB gene was conducted using Surveyor Mutation software. Nine prediction software programs (i.e., SIFT, PROVEAN, POLYPHEN-2, DEOGEN, SNPs & go, PREDICTSNP, MUTATIONTASTER, PANTHER, and FATHMM) were used to determine the functional impact of mutations. The various parameters of the genetic variety as well as the genetic differentiation of MT-CYB were obtained using DNAsp Version 5.1001, Harlequin Version 3.1 and Mega X. Results: A total of 24 mutations (Z-score ≥ 20) were identified in malnourished and healthy children. Among the non-synonym mutations present in malnourished children, mutations p.N206N/I, p.T336H, p.Y345A, p.T348T/N, and p.L357L/V were predicted pathogenic by at least five predictive software programs. The amino acids Ile, Lys, Arg and Asn demonstrate significant differences between normal and malnourished children. There is a predominance of T+A (53.72%) compared to C+G (46.28%). Our results show high haplotypic diversity (1.000+/-0.013) and low nucleotide diversity (0.10545+/- 0.00488). Conclusion: Our results allowed us to detect mutations in the MT-CYB gene that could be linked to childhood malnutrition. A decrease in isoleucine (Ile), asparagine (Asn), and arginine (Arg) may be correlated with the risk of malnutrition. This study will allow to readjust the strategies to fight against malnutrition. SN - 2768-0363 UR - https://dx.doi.org/10.33425/2768-0363.1014 DO - 10.33425/2768-0363.1014