Mapping the structure of a non-native state of staphylococcal nuclease.

Non-native states of proteins populated at extremes of pH, or by mutation or truncation of the protein sequence, are thought to be equilibrium models for kinetic intermediates on the folding pathway. While the global physical properties of these molecules have been well characterized, analysis of their structure by NMR spectroscopy has proven difficult. Here we report the use of a new chemical cleavage technique, based on reactive oxygen species, to map the backbone fold of a truncated form of staphylococcal nuclease in a non-native state. The fragment adopts a native-like fold, however the technique also reveals regions of non-native structure.