Common Features in Structures and Sequences of Sandwich-like Proteins

The goal of this work is to define the structural and sequence features common to sandwich-like proteins (SPs), a group of very different proteins now comprising 69 superfamilies in 38 protein folds. Analysis of the arrangements of strands within main sandwich sheets revealed a rigorously defined co...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2002-10, Vol.99 (22), p.14137-14141
Main Authors: Kister, Alexander E., Finkelstein, Alexei V., Gelfand, Israel M.
Format: Article
Language:English
Subjects:
Amino acid sequence homology
Atoms
Biological Sciences
Biophysics
Hydrogen bonds
Immunoglobulins
Immunoglobulins - chemistry
Mathematical sequences
Models, Molecular
Nucleic acids
Numberings
Protein Structure, Tertiary
Proteins
Proteins - chemistry
Sequence Alignment
Sequence homology
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Summary:The goal of this work is to define the structural and sequence features common to sandwich-like proteins (SPs), a group of very different proteins now comprising 69 superfamilies in 38 protein folds. Analysis of the arrangements of strands within main sandwich sheets revealed a rigorously defined constraint on the supersecondary substructure that holds true for 94% of known SP structures. The invariant substructure consists of two interlocked pairs of neighboring β-strands. It is even more typical for centers of SP than the well-known "Greek key" strands arrangement for their edges. As homology among these proteins is not usually detectable even with the most powerful sequence-comparing algorithms, we employed a structure-based approach to sequence alignment. Within the interlocked strands we found 12 positions with fixed structural roles in SP. A residue at any of these positions possesses similar structural properties with residues in the same position of other SPs. The 12 positions lie at the center of the interface between the β-sheets and form the common geometrical core of SPs. Of the 12 positions, 8 are occupied by only four hydrophobic residues in 80% of all SPs.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.212511499