Structure analysis of the proteins associated with polyA repeat expansion disorders

Repeat regions are low-complexity regions in the human genome that largely code for intrinsic disorder in proteins. Expansions outside the normal thresholds in repeat regions are likely to be pathogenic, leading to the so-called repeat expansion diseases. There have been numerous studies on the most common group of repeat expansion diseases, which are the polyglutamine (polyQ) repeat expansion diseases, but there has been much less work done on the second-largest group of expansion repeats disorders, which involves the expansion of polyalanine (polyA) repeat tracts. In this article, we present a comprehensive study of the structural changes predicted using I-TASSER when comparing the wild type and enlarged structures of all known polyA expansion disorders. The results show that there is a reduction in alpha helices, an increase in extended strands in parallel and/or anti-parallel beta-sheet conformation, an increase in random coils/loops and irregular elements, and a large increase in solvent-accessible surface area. When compared to the findings in polyQ expansions disorders we see similar trends, suggesting that the polyQ and polyA repeat expansion causes similar effects on the respective proteins, which lead to higher misfolding and aggregation propensities.