AI Article Synopsis
- AAA proteins are involved in remodeling other proteins, influencing various biological processes through the coupling of substrate binding and conformational changes driven by nucleotide binding and hydrolysis.
- In the study focused on the AAA protein Hsp104, engaging with polypeptides at a specific region induces a conformational change that drives ATP hydrolysis in another domain of the protein.
- This interdomain communication is essential for function and can be disrupted by mutations or antibodies that block the middle region, underscoring its importance in the protein's signaling mechanism.
Article Abstract
AAA proteins remodel other proteins to affect a multitude of biological processes. Their power to remodel substrates must lie in their capacity to couple substrate binding to conformational changes via cycles of nucleotide binding and hydrolysis, but these relationships have not yet been deciphered for any member. We report that when one AAA protein, Hsp104, engages polypeptide at the C-terminal peptide-binding region, the ATPase cycle of the C-terminal nucleotide-binding domain (NBD2) drives a conformational change in the middle region. This, in turn, drives ATP hydrolysis in the N-terminal ATPase domain (NBD1). This interdomain communication pathway can be blocked by mutation in the middle region or bypassed by antibodies that bind there, demonstrating the crucial role this region plays in transducing signals from one end of the molecule to the other.
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| http://dx.doi.org/10.1016/s1097-2765(02)00499-9 | DOI Listing |
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