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Structural Signatures of Enzyme Binding Pockets from Order-Independent Surface Alignment: A Study of Metalloendopeptidase and NAD Binding Proteins

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Title: Structural Signatures of Enzyme Binding Pockets from Order-Independent Surface Alignment: A Study of Metalloendopeptidase and NAD Binding Proteins
Author(s): Dundas, Joe; Adamian, Larisa; Liang, Jie
Subject(s): functional pockets signature pockets signature basis set metalloendopeptidase NAD binding proteins
Abstract: Detecting similarities between local binding surfaces can facilitate identification of enzyme binding sites and prediction of enzyme functions, and aid in our understanding of enzyme mechanisms. Constructing a template of local surface characteristics for a specific enzyme function or binding activity is a challenging task, as the size and shape of the binding surfaces of a biochemical function often vary. Here we introduce the concept of signature binding pockets, which captures information on preserved and varied atomic positions at multiresolution levels. For proteins with complex enzyme binding and activity, multiple signatures arise naturally in our model, forming a signature basis set that characterizes this class of proteins. Both signatures and signature basis sets can be automatically constructed by a method called SOLAR (Signature Of Local Active Regions). This method is based on a sequence-order-independent alignment of computed binding surface pockets. SOLAR also provides a structure-based multiple sequence fragment alignment to facilitate the interpretation of computed signatures. By studying a family of evolutionarily related proteins, we show that for metzincin metalloendopeptidase, which has a broad spectrum of substrate binding, signature and basis set pockets can be used to discriminate metzincins from other enzymes, to predict the subclass of metzincins functions, and to identify specific binding surfaces. Studying unrelated proteins that have evolved to bind to the same NAD cofactor, we constructed signatures of NAD binding pockets and used them to predict NAD binding proteins and to locate NAD binding pockets. By measuring preservation ratio and location variation, our method can identify residues and atoms that are important for binding affinity and specificity. In both cases, we show that signatures and signature basis set reveal significant biological insight.
Issue Date: 2011-03-11
Publisher: Elsevier
Citation Info: Dundas, J., Adamian, L., & Liang, J. 2011. Structural Signatures of Enzyme Binding Pockets from Order-Independent Surface Alignment: A Study of Metalloendopeptidase and NAD Binding Proteins. Journal of Molecular Biology, 406(5): 713-729. DOI: 10.1016/j.jmb.2010.12.005
Type: Article
Description: NOTICE: this is the author’s version of a work that was accepted for publication in the Journal of Molecular Biology. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in the Journal of Molecular Biology, [Vol 406, Issue 5, (March 11, 2011)] DOI: 10.1016/j.jmb.2010.12.005. The original publication is available at www.elsevier.com.
URI: http://hdl.handle.net/10027/7686
ISSN: 0022-2836
Sponsor: This work was supported by NIH grants GM079804, GM081682, GM086145, NSF grant DMS-0800257, and ONR grant N00014-09-1-0028.
Date Available in INDIGO: 2011-05-26
 

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