The structure and unfolding of metal-free (apo) human wild-type SOD1 and three pathogenic variants of SOD1 (A4V, G93R, and H48Q) that cause familial amyotrophic lateral sclerosis have been studied with amide hydrogen/deuterium exchange and mass spectrometry. The results indicate that a significant proportion of each of these proteins exists in solution in a conformation in which some strands of the beta-barrel (i.e. beta2) are well protected from exchange at physiological temperature (37 degrees C), whereas other strands (i.e. beta3 and beta4) appear to be unprotected from hydrogen/deuterium exchange. Moreover, the thermal unfolding of these proteins does not result in the uniform incorporation of deuterium throughout the polypeptide but involves the local unfolding of different residues at different temperatures. Some regions of the proteins (i.e. the "Greek key" loop, residues 104-116) unfold at a significantly higher temperature than other regions (i.e. beta3 and beta4, residues 21-53). Together, these results show that human wild-type apo-SOD1 and variants have a partially unfolded beta-barrel at physiological temperature and unfold non-cooperatively.