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Novel method to detect a motif of local structures in different protein conformations.
Wako, H. and Yamato, T.
Protein Eng. (1998) 11, 981-990.
Abstract
In order to detect a motif of local structures in different protein conformations, the Delaunay tessellation
is applied to protein structures represented by C
atoms only. By the Delaunay tessellation the interior space of the protein is uniquely divided up into
Delaunay tetrahedra whose vertices are the C atom
positions. Some edges of the tetrahedra are virtual bonds connecting adjacent residues' C@atoms along the
polypeptide chain and others indicate
interactions between residues nearest neighbouring in space. The rules are proposed to assign a code, i.e.,
a string of digits, to each tetrahedron to
characterize the local structure constructed by the vertex residues of one relevant tetrahedron and four
surrounding it. Many sets comprised of the local
structures with the same code are obtained from 293 proteins, each of which has relatively low sequence
similarity with the others. The local structures in
each set are similar enough to each other to represent a motif. Some of them are parts of secondary or supersecondary structures, and others are irregular,
but definite structures. The method proposed here can find motifs of local structures in the Protein Data Bank
much more easily and rapidly than other
conventional methods, because they are represented by codes. The motifs detected in this method can provide
more detailed information about specific
interactions between residues in the local structures, because the edges of the Delaunay tetrahedra are
regarded to express interactions between residues
nearest neighbouring in space.
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