Molecular chaperones and their denaturing effect on client proteins
Molecular chaperones and their denaturing effect on client proteins
Abstract
Advanced NMR methods combined with biophysical techniques have recently provided unprecedented insight into structure and dynamics of molecular chaperones and their interaction with client proteins. These studies showed that several molecular chaperones are able to dissolve aggregation-prone polypeptides in aqueous solution. Furthermore, chaperone-bound clients often feature fluid-like backbone dynamics and chaperones have a denaturing effect on clients. Interestingly, these...
Structural basis for the interaction between the cell polarity proteins Par3 and Par6 - Science
Structural basis for the interaction between the cell polarity proteins Par3 and Par6 - Science
Structural basis for the interaction between the cell polarity proteins Par3 and Par6 ScienceCell types often exhibit asymmetric distributions of proteins, lipids, and organelles that are linked to specialized functions, and loss of polarization precedes ...
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