Continuous-time quantum walks on protein residue networks yield a centrality measure that agrees with eigenvector centrality, incorporates quantum interference, recovers functional residues, and runs on IBM quantum hardware.
Dynamic energy landscape view of coupled binding and protein conformational change: induced-fit versus population-shift mechanisms
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Continuous-time quantum-walk centrality for protein residue interaction networks
Continuous-time quantum walks on protein residue networks yield a centrality measure that agrees with eigenvector centrality, incorporates quantum interference, recovers functional residues, and runs on IBM quantum hardware.