Abstract
ABSTRACT Maintaining a healthy protein folding environment is essential for cellular function. Recently, we found that nucleic acids, G-quadruplexes in particular, are potent chaperones for preventing protein aggregation. With the aid of structure-function and NMR analyses of two G-quadruplex forming sequences, PARP-I and LTR-III, we uncovered several contributing factors that affect G-quadruplexes in preventing protein aggregation. Notably, three factors emerged as vital in determining holdase activity of G-quadruplexes: their structural topology, G-quadruplex accessibility and dynamics, and oligomerization state. These factors together appear to largely dictate whether a G-quadruplex is able to prevent partially misfolded proteins from aggregating. Understanding the physical traits that govern the ability of G-quadruplexes to modulate protein aggregation will help elucidate their possible roles in neurodegenerative disease.
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