TITLE

Correction: Exploration of the Dynamic Properties of Protein Complexes Predicted from Spatially Constrained Protein-Protein Interaction Networks

PUB. DATE
August 2014
SOURCE
PLoS Computational Biology;Aug2014, Vol. 10 Issue 8, p1
SOURCE TYPE
Academic Journal
DOC. TYPE
Correction Notice
ABSTRACT
A correction to the article "Exploration of the Dynamic Properties of Protein Complexes Predicted from Spatially Constrained Protein-Protein Interaction Networks" that was published in a 2014 issue is presented.
ACCESSION #
97810584

 

Related Articles

  • Complex topology rather than complex membership is a determinant of protein dosage sensitivity. Oberdorf, Richard; Kortemme, Tanja // Molecular Systems Biology;2009, Vol. 5 Issue 1, p253 

    The ‘balance hypothesis’ predicts that non-stoichiometric variations in concentrations of proteins participating in complexes should be deleterious. As a corollary, heterozygous deletions and overexpression of protein complex members should have measurable fitness effects. However,...

  • Protein interactions: PLATO's molecular dialog. Donner, Amy // Nature Chemical Biology;May2013, Vol. 9 Issue 5, p291 

    The article informs about a study conducted by Zhu et al. regarding the parallel analysis of PLATO, translated open reading frames, to identify those molecules that affect the function of proteins.

  • Synthetic biology: Many genes, one starting pistol.  // Nature Methods;Nov2012, Vol. 9 Issue 11, p1047 

    The article offers information on gene regulation and states that genes can be controlled by using the same regulatory element but with different interactions among regulatory proteins.

  • Membrane-Mediated Interaction between Strongly Anisotropic Protein Scaffolds. Schweitzer, Yonatan; Kozlov, Michael M. // PLoS Computational Biology;Feb2015, Vol. 11 Issue 2, p1 

    Specialized proteins serve as scaffolds sculpting strongly curved membranes of intracellular organelles. Effective membrane shaping requires segregation of these proteins into domains and is, therefore, critically dependent on the protein-protein interaction. Interactions mediated by membrane...

  • The Interconnectedness of Cancer Cell Signaling. Rehemtulla, Alnawaz // Neoplasia;Dec2011, Vol. 13 Issue 12, p1183 

    The elegance of fundamental and applied research activities have begun to reveal a myriad of spatial and temporal alterations in downstream signaling networks affected by cell surface receptor stimulation including G protein-coupled receptors and receptor tyrosine kinases. Interconnected...

  • Water at Interface with Proteins. Franzese, Giancarlo; Bianco, Valentino; Iskrov, Svilen // Food Biophysics;Jun2011, Vol. 6 Issue 2, p186 

    Water is essential for the activity of proteins. However, the effect of the properties of water on the behavior of proteins is only partially understood. Recently, several experiments have investigated the relation between the dynamics of the hydration water and the dynamics of protein. These...

  • Analyzing Protein-Protein Interaction Networks with Web Tools. Moschopoulos, Charalampos N.; Pavlopoulos, Georgios A.; Likothanassis, Spiridon; Kossida, Sophia // Current Bioinformatics;Dec2011, Vol. 6 Issue 4, p389 

    Protein-protein interactions (PPIs) have been marked as the main actors for all of the processes taking place in a cell and therefore great efforts have been made towards the understanding of their biological function. Today, new high-throughput technologies generate vast amounts of interaction...

  • Targeting the hotspot of G-protein interactions. Harrison, Charlotte // Nature Reviews Drug Discovery;Jun2006, Vol. 5 Issue 6, p456 

    The article discusses the study made on g-protein interactions. G-protein interactions are found to be interesting drug targets but challenges on its topology and interaction surfaces has brought difficulties for progress. A region referred to as hot spots were considered in modulating the...

  • Micropatterning for quantitative analysis of protein-protein interactions in living cells. Schwarzenbacher, Michaela; Kaltenbrunner, Martin; Brameshuber, Mario; Hesch, Clemens; Paster, Wolfgang; Weghuber, Julian; Heise, Bettina; Sonnleitner, Alois; Stockinger, Hannes; Schütz, Gerhard J. // Nature Methods;Dec2008, Vol. 5 Issue 12, p1053 

    We present a method to identify and characterize interactions between a fluorophore-labeled protein ('prey') and a membrane protein ('bait') in live mammalian cells. Cells are plated on micropatterned surfaces functionalized with antibodies to the bait extracellular domain. Bait-prey...

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics