Abstract.
Advances in methods of structure determination have led to the accumulation of large amounts of protein structural data. Some 500 distinct protein folds have now been characterized, representing one-third of all globular folds that exist. The range of known structural types and the relatively large fraction of the protein universe that has already been sampled have greatly facilitated the discovery of some unifying principles governing protein structure and evolutionary relationships. These include a highly skewed distribution of topological arrangements of secondary-structure elements that favors a few very common connectivities and a highly skewed distribution in the capacity of folds to accommodate unrelated sequences. These and other observations suggest that the number of folds is far fewer than the number of genes, and that the fold universe is dominated by a small number of giant attractors that accommodate large numbers of unrelated sequences. Thus all basic protein folds will likely be determined in the near future, laying the foundation for a comprehensive understanding of the biochemical and cellular functions of whole organisms.
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Received 20 June 2000; accepted 18 July 2000
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Zhang, C., DeLisi*, C. Protein folds: molecular systematics in three dimensions . CMLS, Cell. Mol. Life Sci. 58, 72–79 (2001). https://doi.org/10.1007/PL00000779
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DOI: https://doi.org/10.1007/PL00000779