Abstract
Hetero dimer (different monomers) interfaces are involved in catalysis and regulation through the formation of interface active sites. This is critical in cell and molecular biology events. The physical and chemical factors determining the formation of the interface active sites is often large in numbers. The combined role of interacting features is frequently combinatorial and additive in nature. Therefore, it is important to determine the physical and chemical features of such interactions. A number of such features have been documented in literature since 1975. However, the use of such interaction features in the prediction of interaction partners and sites given their sequences is still a challenge. In a non-redundant dataset of 156 hetero-dimer structures determined by X-ray crystallography, the interacting partners are often varying in size and thus, size variation between subunits is an important factor in determining the mode of interface formation. The size of protein subunits interacting are either small-small, largelarge, medium-medium, large-small, large-medium and small-medium. It should also be noted that the interface formed between subunits have physical interactions at N terminal (N), C terminal (C) and middle (M) region of the protein with reference to their sequences in one dimension. These features are believed to have application in the prediction of interaction partners and sites from sequences. However, the use of such features for interaction prediction from sequence is not currently clear.
Highlights
Protein hetero-dimer subunit interaction is important in regulation and catalysis in living cells
In a non-redundant dataset of 156 hetero-dimer structures determined by X-ray crystallography, the interacting partners are often varying in size and size variation between subunits is an important factor in determining the mode of interface formation
The protein-protein complexes in the dataset of 156 non-redundant structures are subsequently classified based on protein sizes forming the interface (Table 5 in supplementary material)
Summary
Protein hetero-dimer subunit interaction is important in regulation and catalysis in living cells. The modes and types of protein-protein interactions using hetero-dimer protein complexes are numerically large in both prokaryotic and eukaryotic cells. The documented features available far are based on structural datasets of protein-protein complexes of limited size. In these studies, geometrical (interface size, planarity, sphericity and complementarity) and chemical properties (the types of amino acid chemical groups, hydrophobicity, electrostatic interactions and Hbonds) are frequently analyzed
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