Introducing critical residues in the human prion protein and its Asp 178 Asn mutant by molecular dynamics simulation

introducing critical residues in the human prion protein and its asp 178 asn mutant by molecular dynamics simulation

the molecular dynamics (md) simulation method is used to assess structural details for humanprion protein (hereafter prpn) and its asp178 asn mutant (hereafter prpm) which causes fatalfamilial insomnia disease. the results reveal that the flexibility and instability increase in prpmcould be related to specific amino acids exposed to the solvent. solvation free energy of prpm is 20kjmot1nni2 mor...

Molecular dynamics simulation of human prion protein

The 1997 Nobel Prize was awarded to Stanley B. Prusiner for his discovery of prions and there are now wet lab experimental results available which show the evidence of such kind of molecules. Present studies reveal the role of acidic pH in the conversion of human prion protein to the pathogenic isoform is investigated by means of molecular dynamics simulations, focusing the attention to the eff...

A Study on The Effect of Temperature on Human Prion Protein Structure through Molecular Dynamic Simulation

Background & Aims: The normal form of the prion protein is called PrPC and its infectious form is called PrPSc. This protein functions like a crystallized core for the transformation of PrPc into an abnormal PrPSc. The aim of the present study was to investigate the effect of temperature on human prion protein structure through molecular dynamic simulation. Methods: In this research, the GROMAC...

The Molecular Dynamics Simulation of Prion Protein

Flexibility of the murine prion protein and its Asp178Asn mutant investigated by molecular dynamics simulations.

Inherited forms of transmissible spongiform encephalopathy, e.g. familial Creutzfeldt-Jakob disease, Gerstmann-Sträussler-Scheinker syndrome and fatal familial insomnia, segregate with specific point mutations of the prion protein. It has been proposed that the pathologically relevant Asp178Asn (D178N) mutation might destabilize the structure of the prion protein because of the loss of the Arg1...

Deamidations in recombinant human phenylalanine hydroxylase. Identification of labile asparagine residues and functional characterization of Asn --> Asp mutant forms.

Recombinant human phenylalanine hydroxylase (hPAH) expressed in Escherichia coli for 24 h at 28 degrees C has been found by two-dimensional electrophoresis to exist as a mixture of four to five molecular forms as a result of nonenzymatic deamidation of labile Asn residues. The multiple deamidations alter the functional properties of the enzyme including its affinity for l-phenylalanine and tetr...