Intertwined homo-oligomers are complexes comprising identical protein subunits, where small segments or compact protein substructures (domains) are exchanged between the subunits. Using a formal definition of intertwined homo-oligomers, we survey the Protein Data Bank for all such complexes. Results show that intertwining occurs in 13,442 (24%) of all surveyed structures. A majority (∼72%) exchanges one contiguous chain segment of varying length. Another ∼10%, exchange structural domains, and the remaining ∼20% display complex intertwining topologies. Smaller proteins are more often intertwined, and intertwining is dominant in solution homodimers. These findings and analyses of various properties of the major category of intertwined complexes, their interfaces and quaternary context, support the physiological role of intertwining in promoting homooligomer stability. Furthermore, the number of different intertwining modes observed in families of related proteins is limited, and likely specific to the protein fold. These findings yield unique insights into the role of intertwining in homomeric association.
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