bc2012 submission 109a

21
Representative Proteomes and Genomes A standardized, stable and unbiased set of proteomes and genomes http://pir.georgetown.edu/rps/ Raja Mazumder ([email protected])

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  • Representative Proteomesand GenomesA standardized, stable and unbiased set of proteomes andgenomeshttp://pir.georgetown.edu/rps/Raja Mazumder ([email protected])
  • Nomenclature Representative Proteomes Primarily computational Reference Proteomes/QFO Proteomes/Blessed Proteomes Primarily manual Extension of Reference proteomes
  • Representative Proteomes (RP) and Representative genomes (RG) http://pir.georgetown.edu/rps/
  • Procedure to generate the RPs Compute pair-wise co-membership value (X) in UniRef50 for all proteomes For each proteome, compute the mean co-membership between this proteome and the other proteomes Create ranked proteome list based on the mean co-membership RPG generation starts For a given CMT, take the first proteome in the ranked list and the ones with X CMT to form an RPG, and remove them from ranked list ranked No list empty? Yes RPG generation ends Select a Representative Proteome for each RPG (manually inspected by curator)
  • Proteome A Proteome B UniRef50 UniRef50 Sequence clusters (UniRef100, 90, 50) From any organism Part of UniProt production cycle PMID: 17379688
  • RPs at Different CMTs 1000 100 900 90 3.02 800 80 700 2.69 70 # RPs Million proteins 600 2.36 60# RPs % Reduction - 500 50 % 1 Proteomes 400 40 2.02 % Reduction - 300 30 Sequences 2 200 20 100 10 0 0 75 55 35 15 1 Based on 1144 complete genomes CMT (%) 2 Based on 4.3 million sequences (complete genomes only) UniProtKB total: 13.46 million sequences
  • RP at higher level is used to cluster the lower levels RPGs are constructed based on co-membership, not taxonomy
  • Manual mapping of UniProt andNCBI genomes The taxonomy ID of each proteome present in UniProt is mapped to the NCBI RefSeq/GenBank genome project IDs When more than one genome is available for the same taxonomy ID, the genomes are ranked according to the availability of a RefSeq genome, number of related publications, number of citations for each publication, and date of sequencing. The highest ranking genome is mapped to the UniProtKB proteome
  • RefSeq genomes and proteomes Mapping allows us to retrieve genomes and proteomes from RefSeq. ftp://ftp.pir.georgetown.edu/databases/rps/rgftp://ftp.pir.georgetown.edu/databases/rps/rp_in_refseq_sequences/
  • RP55 Over Time 1400 120 # complete proteomes # RPGs % species in multiple RPGs 1200 100 % stable RPGs 1000# Complete proteomes 80 800 60 % 600 40 400 20 200 0 0 2004_1 2005_4 2006_7 2007_10 2008_13 2009_15 2010_09 UniProtKB release
  • Coverage Statistics RP55 95% of all InterPro families contain at least one protein from the RP set InterPro covers ~75% of all proteins in UniProtKB, and this number holds true as well for RP55 93% of the experimentally-characterized proteins are retained in the RP set
  • Coverage and use
  • Downloads
  • Make your own set
  • Visualizing all-against-all proteomecorrelation matrix vs. the taxonomytree Developed a method to graphically visualize NCBIs taxonomy tree and overlay the proteome correlation tree (PCT) to illustrate genomic similarity between organisms that may otherwise be considered to have distant ancestry. Computed all-against-all correlation values between all complete proteomes Comparison network can be browsed in Cytoscape network software to easily identify nodes in the taxonomy tree that are not supported by PCT data Development tools: CytoscapeWeb, CytoscapeRPC, Perl
  • Family Enterobacteriaceae Distance based on taxonomy tree Shigella Escherichia Enterobacter Klebsiella Genus Distance based on taxonomy tree Species ENT38 Distance based on correlation table ECOLI ESCF3 ECO24 ENTAKECOK1 KLEP7 SHIFL SHIF8
  • Example: Examine correlation scores ofAGRT5 Agrobacterium tumefaciens (AGRT5) http://pir.georgetown.edu/cgi-bin/rps_tree.pl?point_id=r15p176299&on=1&on100=1&file_id=122063&p=#-5
  • Can easily identify genomic neighbors The top 2 levels are family and genus nodes arranged according to taxonomic position The bottom nodes are complete proteomes with a heuristic force-directed layout applied according to all-against-all correlation Although AGRT5 and AGRVS share the same genus, they are relatively distant from each other (~28%), compared to AGRT5 and AGRSH (~70%).
  • Sequence search Cleaner BLAST/phmmer results
  • Conclusions High quality RPs generated computationally and inspected by curators A standardized, stable and unbiased set of proteomes and genomes Completely integrated and into the UniProt/UniRef production pipeline and has monthly releases Automatically selects QFO/UniProt RF (if available in RPG) as RP (provide feedback to QFO and others if discrepancy) Extended to RefSeq ( ftp://ftp.pir.georgetown.edu/databases/rps/rg; ftp://ftp.pir.georgetown.edu/databases/rps/rp_in_refseq_s equences/) RGs can help placement of unknown metagenomic sequences into the correct clusters
  • Acknowledgements Chuming Chen (PIR) Darren Natale (PIR) Hongzhan Huang (PIR) Jian Zhang (PIR) Peter McGarvey (PIR) Cathy Wu (PIR) Mona Motwani (GWU) Jamal Theodore (GWU) Robert Finn (HHMI Janelia Farm/Pfam) Eleanor Stanley (EBI) Kim Pruitt (NCBI) Yuri Wolf (NCBI) UniProt Consortium