Paper Citing NAMD - Abstract
Artali, Roberto; Del Pra, Antonio; Foresti, Elisabetta; Lesci, Isidoro Giorgio; Roveri, Norberto; Sabatino, Piera
Adsorption of human serum albumin on the chrysotile surface: a molecular dynamics and spectroscopic investigation
JOURNAL OF THE ROYAL SOCIETY INTERFACE, 5:273-283, MAR 6 2008
The human serum albumin (HSA) secondary structure modi. cations induced by the chrysotile surface have been investigated via computational molecular dynamics (MD) and experimental infrared spectroscopy (FTIR) on synthetic chrysotile nanocrystals coated with different amount of HSA. MD simulations, conducted by placing various albumin subdomains close to the fixed chrysotile surface, show an initial adsorption phase, accompanied by local rearrangements of the albumin motifs in contact with the chrysotile layer. Next, large-scale rearrangements follow with consequent secondary structure modi. cations. Gaussian curve fitting of the FTIR spectra obtained for HSA-coated synthetic chrysotile nanocrystals has allowed the quanti. cation of HSA structural modi. cations as a function of the amount of protein adsorbed. The experimental results support the atomistic computer simulations providing a realistic description of the adsorption of plasma proteins onto chrysotile and unravelling a key step in the understanding of asbestos toxicity.
