- Protein-protein interaction prediction
Protein-protein interaction prediction is a field combining
bioinformaticsand structural biologyin an attempt to identify and catalog interactions between pairs or groups of proteins. Understanding protein-protein interactions is important in investigating intracellular signaling pathways. Experimentally, interactions between pairs of proteins are inferred from yeast two-hybrid systems, from affinity purification/ mass spectrometryassays, or from protein microarrays. In parallel to the experimental determination of the interactome, computational methods are being developed.
Proteins that interact are more likely to co-evolveref|Dandekarref|Enrightref|Marcotteref|Pazos, therefore it is possible to make inferences about interactions between pairs of proteins based on their phylogenetic distances. It has also been observed in some cases that pairs of interacting proteins have fused orthologues in other organisms. In addition, a number of bound protein complexes have been structurally solved and can be used to identify the residues that mediate the interaction so that similar motifs can be located in other organisms.
Phylogenetic profilingref|Pellegrini finds pairs of protein families with similar patterns of presence or absence across large numbers of species. This method identifies pairs likely to act in the same biological process, but does not necessarily imply physical interaction.
Prediction of co-evolved protein pairs based on similar phylogenetic trees
This methodref|Tan involves using a sequence search tool such as
BLASTfor finding homologues of a pair of proteins, then building multiple sequence alignments with alignment tools such as Clustal. From these multiple sequence alignments, phylogenetic distance matrices are calculated for each protein in the hypothesized interacting pair. If the matrices are sufficiently similar (as measured by their Pearson correlation coefficient) they are deemed likely to interact.
Identification of homologous interacting pairs
This method ref|Aloy consists of searching whether the two sequences have homologues which form a complex in a database of known structures of complexes. The identification of the domains is done by sequence searches against domain databases such as
Pfamusing BLAST. If more than one complex of Pfam domains is identified, then the query sequences are aligned using a hidden Markov tool called HMMERto the closest identified homologues, whose structures are known. Then the alignments are analysed to check whether the contact residues of the known complex are conserved in the alignment.
Identification of structural patterns
This methodref|Aytunaref|Ogmen builds a library of known protein-protein interfaces from the PDB, where the interfaces are defined as pairs of polypeptide fragments that are below a threshold slightly larger than the
Van der Waals radiusof the atoms involved. The sequences in the library are then clustered based on structural alignment and redundant sequences are eliminated. The residues that have a high (generally >50%) level of frequency for a given position are considered hotspotsref|Keskin. This library is then used to identify potential interactions between pairs of targets, providing that they have a known structure (i.e. present in the PDB).
Bayesian network modelling
Bayesianmethods ref|Jansen integrate data from a wide variety of sources, including both experimental results and prior computational predictions, and use these features to assess the likelihood that a particular potential protein interaction is a true positive result. These methods are useful because experimental procedures, particularly the yeast two-hybrid experiments, are extremely noisy and produce many false positives, while the previously mentioned computational methods can only provide circumstantial evidence that a particular pair of proteins might interact.
Relationship to docking methods
The field of protein-protein interaction prediction is closely related to the field of
protein-protein docking, which attempts to use geometric and steric considerations to fit two proteins of known structure into a bound complex. This is a useful mode of inquiry in cases where both proteins in the pair have known structures and are known (or at least strongly suspected) to interact, but since so many proteins do not have experimentally determined structures, sequence-based interaction prediction methods are especially useful in conjunction with experimental studies of an organism's interactome.
Interactome Protein-protein interactions Protein-protein docking Protein-DNA interaction site predictor Two hybrid screening
* [http://advice.i2r.a-star.edu.sg ADVICE]
* [http://bioinfow.dep.usal.es/apid/ APID]
* [http://bioinfow.dep.usal.es/apid/apid2net.html APID2NET]
* [http://pipe.scs.fsu.edu/ cons-PPISP]
* [http://pipe.scs.fsu.edu/meta-ppisp.html meta-PPISP (combining the power of cons-PPISP, PINUP, and Promate)]
* [http://www.russell.embl.de/interprets InterPreTS]
* [http://curie.utmb.edu/prosurf.html InterProSurf]
* [http://bmm.cancerresearchuk.org/~pip/ PIP]
* [http://gordion.hpc.eng.ku.edu.tr/prism PRISM]
* [http://sppider.cchmc.org SPPIDER]
* [http://www.scoppi.org SCOPPI]
#Dandekar T., Snel B.,Huynen M. and Bork P. (1998) "Conservation of gene order: a fingerprint of proteins that physically interact." "Trends Biochem. Sci." (23),324-328
#Enright A.J.,Iliopoulos I.,Kyripides N.C. and Ouzounis C.A. (1999) "Protein interaction maps for complete genomes based on gene fusion events." "Nature" (402), 86-90
#Marcotte E.M., Pellegrini M., Ng H.L., Rice D.W., Yeates T.O., Eisenberg D. (1999) "Detecting protein function and protein-protein interactions from genome sequences." "Science" (285), 751-753
#Pazos F., Valencia A. (2001). "Similarity of phylogenetic trees as indicator of protein-protein interaction." "Protein Engineering", 9 (14), 609-614
#Pellegrini M, Marcotte EM, Thompson MJ, Eisenberg D, Yeates TO. (1999) "Assigning protein functions by comparative genome analysis: protein phylogenetic profiles." "Proc Natl Acad Sci U S A.", 96, 4285-8
#Tan S.H., Zhang Z., Ng S.K. (2004) "ADVICE: Automated Detection and Validation of Interaction by Co-Evolution." "Nucl. Ac. Res.", 32 (Web Server issue):W69-72.
#Aloy P.,Russell R.B. "InterPreTS: Protein Interaction Prediction through Tertiary Structure." "Bioinformatics", 19 (1), 161-162
#Aytuna A. S., Keskin O., Gursoy A. (2005) "Prediction of protein-protein interactions by combining structure and sequence conservation in protein interfaces." "Bioinformatics", 21 (12), 2850-2855
#Ogmen U., Keskin O., Aytuna A.S., Nussinov R. and Gursoy A. (2005) "PRISM: protein interactions by structural matching." "Nucl. Ac. Res.",33 (Web Server issue):W331-336
#Keskin O., Ma B. and Nussinov R. (2004) "Hot regions int protein-protein interactions: The organization and contribution of structurally conserved hot spot residues" "J. Mol. Biol.", (345),1281-1294
# Jansen R, Yu H, Greenbaum D, Kluger Y, Krogan NJ, Chung S, Emili A, Snyder M, Greenblatt JF, Gerstein M. (2003) A Bayesian networks approach for predicting protein-protein interactions from genomic data." "Science", 302(5644):449-53.
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