ABSTRACT
Cellular proteins do not work in isolation. Instead, they often function as part of large macromolecular complexes, which are transported and concentrated into specific cellular compartments and function in a highly crowded environment. A central theme of modern cell biology is to understand how such macromolecular complexes are assembled efficiently and find their destinations faithfully. In this Opinion article, we will focus on HEAT repeats, flexible arrays of amphiphilic helices found in many eukaryotic proteins, such as karyopherins and condensins, and discuss how these uniquely designed helical repeats might underlie dynamic protein–protein interactions and support cellular functions in crowded environments. We will make bold speculations on functional similarities between the action of HEAT repeats and intrinsically disordered regions (IDRs) in macromolecular phase separation. Potential contributions of HEAT–HEAT interactions, as well as cooperation between HEATs and IDRs, to mesoscale organelle assembly will be discussed.
Footnotes
Competing interests
The authors declare no competing or financial interests.
Author contributions
S.H.Y. and T.H. designed and wrote the manuscript.
Funding
Our work is supported by a Funding Program for Next Generation World-leading Researchers from the Japan Society for the Promotion of Science (JSPS) (to S.H.Y.) and a JSPS Grant-in-Aid for Scientific Research [grant numbers 21370054 to S.H.Y.; 26251003, 15K14455 and 15H05971 to T.H.].
- © 2016. Published by The Company of Biologists Ltd
Article navigation
- Top
- Article
- ABSTRACT
- Introduction
- Distribution of HEAT repeats in a wide variety of eukaryotic proteins
- Structural properties of HEAT repeats
- HEAT repeats in nucleo-cytoplasmic transport
- HEAT repeats in mitotic chromosome dynamics
- Potential similarities and functional cooperation between HEAT repeats and IDRs?
- Conclusions and perspectives
- Acknowledgements
- Footnotes
- References
- Figures & tables
- Info & metrics
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