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Protein coadaptation and the design of novel approaches to identify protein–protein interactions
Author(s) -
Fares Mario A.,
RuizGonzález Mario X.,
Labrador Juan Pablo
Publication year - 2011
Publication title -
iubmb life
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.132
H-Index - 113
eISSN - 1521-6551
pISSN - 1521-6543
DOI - 10.1002/iub.455
Subject(s) - computational biology , protein–protein interaction , function (biology) , cell function , coevolution , biology , computer science , protein function , cell , gene , microbiology and biotechnology , genetics , evolutionary biology
Abstract Proteins rarely function in isolation but they form part of complex networks of interactions with other proteins within or among cells. The importance of a particular protein for cell viability is directly dependent upon the number of interactions where it participates and the function it performs: the larger the number of interactions of a protein the greater its functional importance is for the cell. With the advent of genome sequencing and “omics” technologies it became feasible conducting large‐scale searches for protein interacting partners. Unfortunately, the accuracy of such analyses has been underwhelming owing to methodological limitations and to the inherent complexity of protein interactions. In addition to these experimental approaches, many computational methods have been developed to identify protein–protein interactions by assuming that interacting proteins coevolve resulting from the coadaptation dynamics between the amino acids of their interacting faces. We review the main technological advances made in the field of interactomics and discuss the feasibility of computational methods to identify protein–protein interactions based on the estimation of coevolution. As proof‐of‐concept, we present a classical case study: the interactions of cell surface proteins (receptors) and their ligands. Finally, we take this discussion one step forward to include interactions between organisms and species to understand the generation of biological complexity. Development of technologies for accurate detection of protein–protein interactions may shed light on processes that go from the fine‐tuning of pathways and metabolic networks to the emergence of biological complexity. © 2011 IUBMB IUBMB Life, 63(4): 264–271, 2011