Agitation does not induce fibrillation in reduced Hen Egg-White Lysozyme at physiological temperature and pH.

Several proteins and peptides tend to form an amyloid fibril, causing a range of unrelated diseases, from neurodegenerative to certain types of cancer. In the native state, these proteins are folded and soluble. However, these proteins acquired β-sheet amyloid fibril due to unfolding and aggregation. The conversion mechanism from well-folded soluble into amorphous or amyloid fibril is not well understood yet. Here, we induced unfolding and aggregation of Hen egg-white lysozyme (HEWL) by reducing agent dithiothreitol (DTT) and applied mechanical sheering force by constant shaking (1000 rpm) on the thermostat for seven days. Our turbidity results showed that reduced HEWL rapidly formed aggregates, and a plateau was attained in nearly 5 hours of incubation in both shaking and non-shaking conditions. The turbidity was lower in the shaking condition than in the non-shaking condition. The ThT binding and TEM micrographs showed that reduced HEWL formed amorphous aggregates in both conditions. Far-UV CD results showed that reduced HEWL lost nearly all alpha-helical structure, and β-sheet secondary structure was not formed in both conditions. All the spectroscopic and microscopic results showed that reduced HEWL formed amorphous aggregates under both conditions. This article is protected by copyright. All rights reserved.