Ribonuclease A aggregates (dimers, trimers, tetramers, pentamers) can be obtained by lyophilization from 40% acetic acid solutions. Each aggregate forms two conformational isomers distinguishable by different basic net charge. The crystal structure of the two dimers has recently been determined; the structure of the higher oligomers is unknown. The results of the study of the two trimeric and tetrameric conformers can be summarized as follows: (1) RNase A trimers and tetramers form by a 3D domain-swapping mechanism. N-terminal and C-terminal types of domain swapping could coexist; (2) the secondary structures of the trimeric and tetrameric conformers do not show significant differences if compared with the secondary structure of monomeric RNase A or its two dimers; (3) a different exposure of tyrosine residues indicates that in the aggregates they have different microenvironments; (4) the two trimeric and tetrameric conformers show different susceptibility to digestion by subtilisin; (5) dimers, trimers, and tetramers of RNase A show unwinding activity on double-helical poly(dA-dT) · poly(dA-dT), that increases as a function of the size of the oligomers; (6) the less basic conformers are more stable than the more basic ones, and a low concentration in solution of trimers and tetramers favors their stability, which is definitely increased by the interaction of the aggregates with poly(dA-dT) · poly(dA-dT); (7) the products of thermal dissociation of the two trimers indicate that their structures could be remarkably different. The dissociation products of the two tetramers allow the proposal of two models for their putative structures.Keywords: RNase A oligomers; trimers and tetramers of RNase A; properties of trimeric and tetrameric RNase A; RNase A aggregates higher than dimersThe study of the manner in which proteins aggregate in vitro can help in understanding the process of protein aggregation in vivo, and, therefore, also the origin of pathologic proteins responsible for several severe diseases.Although it has recently been reported that native ribonuclease A can dimerize at neutral pH (Park and Raines 2000), it is known that by lyophilization from 30-50% acetic acid solutions RNase A gives rise to oligomers (Crestfield et al. 1962) ranging from dimers to pentamers and possibly higher aggregates, each oligomeric species existing in the form of at least two conformational isomers (Gotte et al. 1999).Dimeric RNase A obtained by lyophilization consists of a minor and a major component that are in the ratio of about 1:3-1:4. Their crystal structures have been determined (Liu et al. 1998(Liu et al. , 2001, and the two dimeric conformers are 3D domain-swapping dimers formed by the exchange of the N-terminal ␣-helix of each monomeric subunit in the case of the minor dimer, of the C-terminal -strand, instead, for the major RNase A dimer. This unique behavior of RNase A, in the dimeric aggregates of which the two known mechanisms of protein aggregation by domain swapping coexist, expands the range of possibi...
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