Hereditary spherocytosis (HS) is a rare inherited disorder of red blood cells which are characterized by spherical, doughnut-shaped with increase deformability that lead to the gallstones and splenomegaly. The role of mutation in the genes responsible for the regulation of synthesis of proteins and stucture of RBC is well know studied. It was found that there are five genes whose mutation result in hereditary spherocytosis.Therefore, we aimed to study the consequences of ANK1, EPB4.2, SPTA1, SPTB, and SLC4A1 non-synonymous mutaion by using advanced inslico methods. Studied for nsSNPs using insilico techniques including OMIN, clinVar, SIFT, Polyphen, homology modelling. Misssence nsSNP were identified in all the gene selected and their effect on the protein structure, stability and functioning was studies. The result showed that 52 nsSNPs are responsible for the changes in the shape of RBCs. After identifying the nsSNPs the structure of proteins were modelled and their RMSD, relative solvent accessibility, and protein stability were studied. Protein stability analysis revealed significant change in free energy (ΔΔG) of the most identified nsSNPs variants. These finding may be helpful for genotype-phenotype research as well as development in pharmacogenetic studies. Finally, this study unveil a significance of inslico methods to figure out highly pathogenic genomic variants affected the structure and functional of HS causing protein