Add to ORKGPrecise control of protein turnover is essential for cellular homeostasis. The ubiquitin-proteasome system is well established as a major regulator of protein degradation, but an understanding of how inherent structural features influence the lifetimes of proteins is lacking. We report that yeast, mouse, and human proteins with terminal or internal intrinsically disordered segments have significantly shorter half-lives than proteins without these features. The lengths of the disordered segments that affect protein half-life are compatible with the structure of the proteasome. Divergence in terminal and internal disordered segments in yeast proteins originating from gene duplication leads to significantly altered half-life. Many paralogs tha...
Evolution is driven by mutations, which lead to new protein functions but come at a cost to protein ...
Aging entails loss of functionality and increased risk of death, even for unicellular organisms, suc...
De novo creation of protein coding genes involves the formation of short ORFs from noncoding regions...
SummaryPrecise control of protein turnover is essential for cellular homeostasis. The ubiquitin-prot...
Precise control of protein turnover is essential for cellular homeostasis. The ubiquitin-proteasome ...
Contains fulltext : 135942.pdf (publisher's version ) (Open Access)Precise control...
Precise control of protein turnover is essential for cellular homeostasis. The ubiquitin-proteasome ...
<p>Why the intrinsically disordered regions evolve within human proteome has became an interesting q...
<div><p>Intrinsically disordered regions have been associated with various cellular processes and ar...
Intrinsically disordered regions have been associated with various cellular processes and are implic...
Intrinsic disorder is more abundant in eukaryotic than prokaryotic proteins. Methods predicting intr...
The ubiquitin proteasome system is responsible for the controlled degradation of a vast number of in...
<div><p>Intrinsically disordered proteins and intrinsically disordered protein regions are highly ab...
Intrinsically disordered proteins are characterized by unusual sequence composition, structural flex...
<p>The relative rates of flexible, constrained and non-conserved disorder in the human proteome are ...
Evolution is driven by mutations, which lead to new protein functions but come at a cost to protein ...
Aging entails loss of functionality and increased risk of death, even for unicellular organisms, suc...
De novo creation of protein coding genes involves the formation of short ORFs from noncoding regions...
SummaryPrecise control of protein turnover is essential for cellular homeostasis. The ubiquitin-prot...
Precise control of protein turnover is essential for cellular homeostasis. The ubiquitin-proteasome ...
Contains fulltext : 135942.pdf (publisher's version ) (Open Access)Precise control...
Precise control of protein turnover is essential for cellular homeostasis. The ubiquitin-proteasome ...
<p>Why the intrinsically disordered regions evolve within human proteome has became an interesting q...
<div><p>Intrinsically disordered regions have been associated with various cellular processes and ar...
Intrinsically disordered regions have been associated with various cellular processes and are implic...
Intrinsic disorder is more abundant in eukaryotic than prokaryotic proteins. Methods predicting intr...
The ubiquitin proteasome system is responsible for the controlled degradation of a vast number of in...
<div><p>Intrinsically disordered proteins and intrinsically disordered protein regions are highly ab...
Intrinsically disordered proteins are characterized by unusual sequence composition, structural flex...
<p>The relative rates of flexible, constrained and non-conserved disorder in the human proteome are ...
Evolution is driven by mutations, which lead to new protein functions but come at a cost to protein ...
Aging entails loss of functionality and increased risk of death, even for unicellular organisms, suc...
De novo creation of protein coding genes involves the formation of short ORFs from noncoding regions...