GGrantIndex
← Search

Contributions of protein aggregation to gene regulation and phenotypic diversity

$308,460DP5FY2013ODNIH

Ut Southwestern Medical Center, Dallas TX

Investigators

Linked publications & trials

Abstract

ABSTRACT The aggregation of proteins is deeply associated with human diseases, including dozens of familial and age-associated disorders that together comprise a major emerging health threat to our aging populace. However, recent discoveries indicate that protein aggregation can also have a wide range of structural and regulatory functions. The breadth and pervasiveness of such non-pathological aggregation is largely unexplored. In the budding yeast, Saccharomyces cerevisiae, multiple intrinsically disordered proteins (IDPs), including transcription factors, RNA- binding proteins, and kinases, have a tendency to aggregate under physiological conditions. One such protein, the transcription factor Mot3, is one of only a handful of proteins known to form self-propagating aggregates that act as protein-based elements of inheritance, or prions. By switching to and from its aggregated state, Mot3 broadens the range of phenotypes accessible to clonal yeast populations. The goals of this work are to 1) develop a quantitative flow cytometric reporter for intracellular aggregation by IDPs, 2) investigate the consequences of aggregation on the regulatory activities of IDPs, and 3) test whether aggregation by these proteins, and by Mot3 in particular, is an adaptive biological process. This work will advance our understanding of non-pathological protein aggregation, while establishing a platform for future interrogations of both functional and disease-associated aggregation in living cells.

View original record on NIH RePORTER →