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Physics from Proteins
Spin Glass Engineering as an Approach to Protein
Random Heteropolymers Folding
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activation amphiphilic antigen associative memory attractors behavior bending energy bilayer Biol Biologically Inspired Physics Biophys Ca2+ calcium calculated cell chain Chem chemotaxis coefficient complex concentration configurations conformational constant correlation corresponding dependence depolarization described diffusion distribution dynamics dynein elastic electric field enzyme equation equilibrium evolution experimental exponential fitness landscape fluctuations formation free energy function genes granulocytes Hamiltonian heteropolymer hydration increase interactions knots linear lipid lipid bilayers measured mechanism Meinhardt microtubule molecular molecules monolayer motion mutation observed obtained orientation parameters pattern Peliti percolation phase diagram phase transition phospholipid phyllotaxis Phys Pissis polymer polymerized population possible potential prediction properties protein folding pulse random relaxation release replication segments selection sequence shape shown simulations species spin glass spontaneous curvature strand studies surface symmetry temperature theoretical theory thermal tion TSDC vesicles XANES