In silico screening and molecular dynamics simulation of disease-associated nsSNP in TYRP1 gene and its structural consequences in OCA3.

[oculocutaneous albinism]

Oculocutaneous albinism type III (OCA 3 ), caused by mutations of TYRP 1 gene , is an autosomal recessive disorder characterized by reduced biosynthesis of melanin pigment in the hair , skin , and eyes . The TYRP 1 gene encodes a protein called tyrosinase -related protein-1 (Tyrp 1 ). Tyrp 1 is involved in maintaining the stability of tyrosinase protein and modulating its catalytic activity in eumelanin synthesis . Tyrp 1 is also involved in maintenance of melanosome structure and affects melanocyte proliferation and cell death . In this work we implemented computational analysis to filter the most probable mutation that might be associated with OCA 3 . We found R 326 H and R 356 Q as most deleterious and disease associated by using PolyPhen 2 .0 , SIFT , PANTHER , I -mutant 3 .0 , PhD-SNP , SNP &GO , Pmut , and Mutpred tools . To understand the atomic arrangement in 3 D space , the native and mutant (R 326 H and R 356 Q ) structures were modelled . Finally the structural analyses of native and mutant Tyrp 1 proteins were investigated using molecular dynamics simulation (MDS ) approach . MDS results showed more flexibility in native Tyrp 1 structure . Due to mutation in Tyrp 1 protein , it became more rigid and might disturb the structural conformation and catalytic function of the structure and might also play a significant role in inducing OCA 3 . The results obtained from this study would facilitate wet-lab researches to develop a potent drug therapies against OCA 3 .