Literature DB >> 27272395

Network representation of protein interactions-Experimental results.

Dennis Kurzbach1, Andrea G Flamm2, Tomáš Sára2.   

Abstract

A graph theoretical analysis of nuclear magnetic resonance (NMR) data of six different protein interactions has been presented. The representation of the protein interaction data as a graph or network reveals that all of the studied interactions are based on a common functional concept. They all involve a single densely packed hub of functionally correlated residues that mediate the ligand binding events. This is found independent of the kind of protein (folded or unfolded) or ligand (protein, polymer or small molecule). Furthermore, the power of the graph analysis is demonstrated at the examples of the Calmodulin (CaM)/Calcium and the Cold Shock Protein A (CspA)/RNA interaction. The presented approach enables the precise determination of multiple binding sites for the respective ligand molecules.
© 2016 The Protein Society.

Keywords:  chemical shift; graph theory; network description; nuclear magnetic resonance; protein interactions; relaxation

Mesh:

Substances:

Year:  2016        PMID: 27272395      PMCID: PMC5338234          DOI: 10.1002/pro.2964

Source DB:  PubMed          Journal:  Protein Sci        ISSN: 0961-8368            Impact factor:   6.725


  20 in total

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Journal:  J Mol Biol       Date:  2005-01-14       Impact factor: 5.469

2.  Coupling protein stability and protein function in Escherichia coli CspA.

Authors:  B J Hillier; H M Rodriguez; L M Gregoret
Journal:  Fold Des       Date:  1998

3.  Structure of calmodulin refined at 2.2 A resolution.

Authors:  Y S Babu; C E Bugg; W J Cook
Journal:  J Mol Biol       Date:  1988-11-05       Impact factor: 5.469

4.  NMRPipe: a multidimensional spectral processing system based on UNIX pipes.

Authors:  F Delaglio; S Grzesiek; G W Vuister; G Zhu; J Pfeifer; A Bax
Journal:  J Biomol NMR       Date:  1995-11       Impact factor: 2.835

5.  The metastasis-associated extracellular matrix protein osteopontin forms transient structure in ligand interaction sites.

Authors:  Gerald Platzer; Andreas Schedlbauer; Angela Chemelli; Przemyslaw Ozdowy; Nicolas Coudevylle; Renate Auer; Georg Kontaxis; Markus Hartl; Andrew J Miles; B A Wallace; Otto Glatter; Klaus Bister; Robert Konrat
Journal:  Biochemistry       Date:  2011-06-16       Impact factor: 3.162

6.  Crystal structure of CspA, the major cold shock protein of Escherichia coli.

Authors:  H Schindelin; W Jiang; M Inouye; U Heinemann
Journal:  Proc Natl Acad Sci U S A       Date:  1994-05-24       Impact factor: 11.205

Review 7.  Structural and energetic basis of allostery.

Authors:  Vincent J Hilser; James O Wrabl; Hesam N Motlagh
Journal:  Annu Rev Biophys       Date:  2012       Impact factor: 12.981

8.  Cooperative unfolding of compact conformations of the intrinsically disordered protein osteopontin.

Authors:  Dennis Kurzbach; Gerald Platzer; Thomas C Schwarz; Morkos A Henen; Robert Konrat; Dariush Hinderberger
Journal:  Biochemistry       Date:  2013-07-24       Impact factor: 3.162

9.  Conformational dynamics of Escherichia coli flavodoxins in apo- and holo-states by solution NMR spectroscopy.

Authors:  Qian Ye; Yunfei Hu; Changwen Jin
Journal:  PLoS One       Date:  2014-08-05       Impact factor: 3.240

10.  Magnetic resonance access to transiently formed protein complexes.

Authors:  Tomáš Sára; Thomas C Schwarz; Dennis Kurzbach; Christoph H Wunderlich; Christoph Kreutz; Robert Konrat
Journal:  ChemistryOpen       Date:  2014-06-18       Impact factor: 2.911
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