Abstract

It has been suggested that denatured proteins are predisposed toward the left-handed polyproline II (P(II)) conformation. One possible source of P(II) stability in the denatured state is water bridges. Water bridges are networks of water molecules that link nearby hydrogen bond acceptors and/or donors on proteins. On the basis of the proposed behavior of P(II) and water bridges, the propensity of a residue to participate in water bridges should be correlated with its P(II) propensity. To test this hypothesis, we analyzed the following data sets: 2351 high-resolution crystal structures, and the native and denatured states of 188 different proteins from all-atom, explicit-solvent molecular dynamics (MD) simulations, which are part of our Dynameomics effort. We found that water bridges do not explain the high frequency of P(II) in denatured states; such bridges are less frequent around P(II) than around other conformations. Thus, this analysis casts doubt on water bridges as a dominant factor determining the residue-based P(II) propensities.