Journal
CURRENT PROTEIN & PEPTIDE SCIENCE
Volume 15, Issue 3, Pages 171-188Publisher
BENTHAM SCIENCE PUBL LTD
DOI: 10.2174/1389203715666140331110522
Keywords
Adaptation; chaperones; evolution; heat shock proteins; learning; memory; protein structure networks; protein-protein interaction networks; stress
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Funding
- Hungarian National Science Foundation [OTKA-K83314]
- EU [TAMOP-4.2.2/B-10/1-2010-0013]
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During the last decade, network approaches became a powerful tool to describe protein structure and dynamics. Here, we describe first the protein structure networks of molecular chaperones, then characterize chaperone containing sub-networks of interactomes called as chaperone-networks or chaperomes. We review the role of molecular chaperones in short-term adaptation of cellular networks in response to stress, and in long-term adaptation discussing their putative functions in the regulation of evolvability. We provide a general overview of possible network mechanisms of adaptation, learning and memory formation. We propose that changes of network rigidity play a key role in learning and memory formation processes. Flexible network topology provides 'learning-competent' state. Here, networks may have much less modular boundaries than locally rigid, highly modular networks, where the learnt information has already been consolidated in a memory formation process. Since modular boundaries are efficient filters of information, in the 'learning-competent' state information filtering may be much smaller, than after memory formation. This mechanism restricts high information transfer to the 'learning competent' state. After memory formation, modular boundary-induced segregation and information filtering protect the stored information. The flexible networks of young organisms are generally in a 'learning competent' state. On the contrary, locally rigid networks of old organisms have lost their 'learning competent' state, but store and protect their learnt information efficiently. We anticipate that the above mechanism may operate at the level of both protein-protein interaction and neuronal networks.
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