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Social behavior of proteins?. Rui Alves. Organization of the talk. Social behavior of the protein?!?!?!? Using meta text analysis Using phylogenetic profiling Using pathway homology Using protein docking Using microarray data Using protein interaction data. Proteins do not work alone!.
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Social behavior of proteins? Rui Alves
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Networks of “interactions” predict global function • Having the network of proteins/genes in which your protein/gene is inserted provides predictive information: • Which cellular pathways or processes is your protein/gene likely to be involved in
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Meta text databases create social models from publication analysis
Server/ Program Literature database Gene names database Language rules database Gene list Rule list How does meta-text analysis create networks? Your genes scripts Entry List of entries mentioning your gene e.g activate, inhibit rescue e.g Ste20
Organization of the talk • Social behavior of the protein?!?!?!? • Meta text analysis • Evolutionary based protein interaction prediction • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Proteins that have coevolved share a function • If protein A has co-evolved with protein B, they are likely to be involved in the same process • Looking for proteins that coevolved will help prediction social networks of proteins • There are many methods to look for co-evolution of proteins • Phylogenetic profiling, gene neighbourhoods, gene fusion events, phylogenetic trees…
Database of proteins in fully sequenced genomes Database of proteins in one genome Database of profiles for each protein in each organism Creating phylogenetic profiles Sequence of each protein Homology search against each genome
Database of profiles for each protein in each organism Database of proteins in fully sequenced genomes Server/ Program Using phylogenetic profiles to predict protein interactions A 1 C 0.9 … … B 0.11 … … Your Sequence (A) Proteins (A and C) that are present and absent in the same set of genomes are likely to be involved in the same process and therefore interact Calculate coincidence index Protein id A A B C Similarly, if protein A is absent in all genomes in which protein B is present there is a likelihood that they perform the same function! i/number of genomes<1 j/number of genomes 0 0 2 1
How to do it? • Download genomes • Use blast for homology • Use perl for homology processing and coincidence index calculations
Protein A Protein B Protein C Protein D Protein D Protein C Protein A Protein B Protein B Protein C Protein D Protein A Syntheny/Conservation of gene neighborhoods Genome 1 Genome 2 Protein A Protein B Protein C Protein D Proteins A and B are in a conserved relative position in most genomes which is an indication that they are likely to interact Genome 3 Which of these proteins “interact”? … Genome …
How to do it? • Download genomes • Use perl for analysis
Protein A Protein B Protein C Protein D Protein D Protein C Protein A Protein B Protein B Protein C Protein D Protein A Gene fusion events Genome 1 Protein A Protein B Protein C Protein D Genome 2 Which of these proteins interact? Proteins A and B have suffered gene fusion events in at least some genomes, which is an indication that they are likely to interact Genome 3 … Genome …
How to do it? • Download genomes • Use perl for analysis
Protein A Protein B Protein C Protein D Protein D Protein C Protein A Protein B Protein B Protein C Protein D Protein A Building phylogenetic trees of proteins Genome 1 Phylogenetic trees represent the evolutionary history of homologue genes/proteins based on their sequence Genome 2 Genome 3 … Genome … Get sequence of all homogues, align and build a phylogenetic tree
Distance based phylogenetic trees A1 A2 A3 … ACTDEEGGGGSRGHI… A-TEEDGGAASRGHI… ACFDDEGGGGSRGHL… … A1 A3 A2 A3 A2 A1 5 substitutions 3 substitutions 8 substitutions 5 A1 A3 3 A2
Maximum likelihood phylogenetic trees Probability of aa substitution Alignment ACTDEEGGGGSRGHI… A-TEEDGGAASRGHI… ACFDDEGGGGSRGHL… … A - E D … A 1 0.01 0.2 0.09 … - 0.01 1 0.0001 0.0001 … E 0.2 0.0001 1 0.5 D 0.09 0.0001 0.5 1 …
Maximum likelihood phylogenetic trees A2 Alignment p(1,2) ACTDEEGGGGSRGHI… A-TEEDGGAASRGHI… ACFDDEGGGGSRGHL… … A1 5 substitutions A1 p(1,3) A3 3 substitutions p(2,3)<p(1,2)<p(1,3) A3 A2 A1 A2 p(2,3) 8 substitutions A3 A3 A1 A2
… … Similarity of phylogenetic trees indicates “interaction” between proteins A1 B1 B2 A2 B3 A3 … C3 Proteins A and B have similar evolutionary trees and thus are likely to “interact” D2 … C2 D1 C1 D3
How to do it? • Download genomes • Use blast,… for analysis • Use Clustal, Phylip, PAUP, … for tree building
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Pathway homology Server/ Program Database of protein sequences in genomes Your Sequence Database of pathways in genomes Homologue(s) Output Database of interactions in genomes
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Protein A Protein B What is protein docking? Protein B Protein A Protein A Protein B Protein A Best Docking Protein B Protein A Protein B Protein A Protein B Same area of interaction Positive Negative Negative
Protein C Caveats of using protein docking to predict interaction Protein B Protein A Glycolisys DNA synthesis Proteins may not come into contact in the cell although if they did they could interact Very heavy computationaly
When shoudl we use protein docking to predict network structure? When we have a group of proteins that are known to be involved in the same function and we want to predict how the different proteins interact with each other
How to do it? • Download structures or create structure predictions • Use GRAMM, HEX, …
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
Predicting protein interactions using micro array data Genes overexpressed as a result of stimulus Group of proteins involved in response to the stimulus cells Purify cDNA Compare cDNA levels of corresponding genes in the different populations Genes underexpressed as a result of stimulus Stimulum Purify cDNA cells Genes with expression independent of stimulus
Organization of the talk • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data
E D A C B F Predicting protein networks using protein interaction data Database of protein interactions Your Sequence (A) Server/ Program Continue until you are satisfied or completed the network
Summary • Social behavior of the protein?!?!?!? • Using meta text analysis • Using phylogenetic profiling • Using pathway homology • Using protein docking • Using microarray data • Using protein interaction data