P185
TreeVector: scalable, interactive, phylogenetic trees for the webDistinguishing protein-coding from non-coding RNAs through support vector machines.Evolutionarily consistent families in SCOP: sequence, structure and functionA phylogenomic profile of globinsClassification of intrinsically disordered regions and proteinsThe InterPro protein families database: the classification resource after 15 yearsA large-scale evaluation of computational protein function predictionInterPro in 2011: new developments in the family and domain prediction databaseAn atlas of combinatorial transcriptional regulation in mouse and manInterPro: the integrative protein signature databaseInterPro, progress and status in 2005SUPERFAMILY--sophisticated comparative genomics, data mining, visualization and phylogenyThe `dnet’ approach promotes emerging research on cancer patient survivalSUPERFAMILY: HMMs representing all proteins of known structure. SCOP sequence searches, alignments and genome assignmentsGenome3D: exploiting structure to help users understand their sequencesGenome3D: a UK collaborative project to annotate genomic sequences with predicted 3D structures based on SCOP and CATH domainsAn expanded evaluation of protein function prediction methods shows an improvement in accuracyDid Viruses Evolve As a Distinct Supergroup from Common Ancestors of Cells?Hologenome analysis of two marine sponges with different microbiomesComparison of the small molecule metabolic enzymes of Escherichia coli and Saccharomyces cerevisiaeThree reasons protein disorder analysis makes more sense in the light of collagen.Are viruses a source of new protein folds for organisms? - Virosphere structure space and evolution.supraHex: an R/Bioconductor package for tabular omics data analysis using a supra-hexagonal map.The SUPERFAMILY database in structural genomics.The SUPERFAMILY 1.75 database in 2014: a doubling of data.DGEclust: differential expression analysis of clustered count data.The SUPERFAMILY database in 2004: additions and improvementsA database of bacterial lipoproteins (DOLOP) with functional assignments to predicted lipoproteinsTranscript annotation in FANTOM3: mouse gene catalog based on physical cDNAsGenomic scale sub-family assignment of protein domains.New developments in the InterPro database.The evolution of human cells in terms of protein innovation.Mouse proteome analysis.Development and evaluation of an automated annotation pipeline and cDNA annotation systemSUPERFAMILY 1.75 including a domain-centric gene ontology methodThree globin lineages belonging to two structural classes in genomes from the three kingdoms of life.Supra-domains: evolutionary units larger than single protein domains.The SUPERFAMILY database in 2007: families and functions.DcGO: database of domain-centric ontologies on functions, phenotypes, diseases and moreA predictive computational framework for direct reprogramming between human cell types.
P50
Q21091151-B1BB9DD4-6000-4182-8C9B-52D6C55E5BC3Q21145271-DB4FAAC9-1A72-4BCC-A4FC-D616A7C38EAAQ21256436-7E31F3AA-D36E-4D6F-AE1A-6177CBEB5CC6Q21283956-407E3F3B-C456-4C85-BA15-D9F81067D8C2Q22061736-757F1C91-00ED-44BF-8A48-B63ECF647418Q24465922-DF704B9B-06D0-49B3-B50A-FB5EEC7ADD5CQ24614831-5F58CA3B-0F66-4751-A8F6-02D4945F8F25Q24620144-EA6A6575-4C70-48C5-9F58-A81DEA29D4FCQ24630300-7E7C4158-8FDF-49D2-82DB-1F1A01D99107Q24655685-123783AC-6251-4268-8AA9-B9A73CC500FDQ24796722-2073FD0D-3191-4BEC-9B02-BEB3788C450EQ26781958-F6194107-66CF-43F5-A266-D599346C1314Q27499832-225EE416-66BE-4302-90A3-5CF954C61BF0Q28212954-81FB6A59-146A-42A0-868D-63F43D52D71AQ28250408-605C37C2-713F-4DCE-A82F-27A9277E9F7BQ28280482-8A9DD9F7-7DBA-470D-953E-77BB6D58EFA2Q28596092-9B368CA4-27B2-4B8E-85D9-02C6DA942D22Q28596341-F929F5E0-22A2-42B7-BE7E-738D4F8EA24DQ28603548-9C383BF2-35B4-4BC3-8CCA-559EB855AA24Q28776418-710B76ED-7988-404C-A79C-418308FBE2C6Q30385241-4AAEB15D-300D-4B27-A167-6AC47057A844Q30403366-82E467B9-8B3B-4107-ADD8-0BB6FF3BC12BQ30708762-2A391FDA-9595-4DB5-9833-1322FEB19517Q30865884-327366D0-8637-4D19-9962-828006AB59FCQ30870918-4673BBD6-0444-4C1F-95F2-BB5CD55F23ACQ30927177-68AB5842-E250-4CA5-8157-6A0A9EF12984Q33196072-FCDAD527-FD59-4889-9523-64553A7867CEQ33238584-B21B19A2-079B-4DD8-BBD6-438345D29A22Q33242821-DE3977F4-C37D-476F-8955-48397F04A0F9Q33252261-C0633833-95BC-4BAE-BED6-1DEA7E248244Q33268110-C4E1E79C-0BD4-4416-BDD9-7C3470A69FC0Q33654324-F1B15E5B-9297-47B9-87FC-7666212A9B7FQ33677663-0A94A1B0-2576-4466-AE72-BB276C670CBFQ33679116-B9ED7478-C7A6-45CA-8C3A-895A280B2C7DQ33742951-2C11E884-1D8E-4829-9FBF-C2ADB00E5179Q33913943-D407BA3B-A774-44D6-A505-7B7D43CF26C6Q33977677-FC9F1BFB-C245-486C-AC2B-1B8FD4AE980FQ34000850-BB02E916-69DC-44D6-9AB8-FB99607914A5Q34034433-E364EC65-D972-4E4D-8363-2190013AF101Q34045862-79AF5B8E-74D7-4140-99E3-14623AFED004
P50
description
Professor of Bioinformatics in ...... the University of Bristol, UK
@en
wetenschapper
@nl
أستاذ المعلوماتية الحيوية في قسم علوم الحاسوب بجامعة بريستول بالمملكة المتحدة
@ar
name
Julian Gough
@ast
Julian Gough
@en
Julian Gough
@es
Julian Gough
@fr
Julian Gough
@nl
Julian Gough
@sl
جوليان غوف
@ar
جولیان قوف
@azb
type
label
Julian Gough
@ast
Julian Gough
@en
Julian Gough
@es
Julian Gough
@fr
Julian Gough
@nl
Julian Gough
@sl
جوليان غوف
@ar
جولیان قوف
@azb
altLabel
Julian Gough
@de
Julian John Thurstan Gough
@en
prefLabel
Julian Gough
@ast
Julian Gough
@en
Julian Gough
@es
Julian Gough
@fr
Julian Gough
@nl
Julian Gough
@sl
جوليان غوف
@ar
جولیان قوف
@azb
P108
P69
P646
P108
P1153
7101953576
P1344
P1477
Julian John Thurstan Gough
@en
P184
P1960
7p6iOO4AAAAJ
P21
P2456
P31
P496
0000-0002-1965-4982
P549
P569
1974-09-01T00:00:00Z
2000-01-01T00:00:00Z
P646
/m/0134fc4s