about
sameAs
ISCB computational biology Wikipedia competitionTesting the ortholog conjecture with comparative functional genomic data from mammalsApplying, Evaluating and Refining Bioinformatics Core Competencies (An Update from the Curriculum Task Force of ISCB's Education Committee).Alternative splicing in concert with protein intrinsic disorder enables increased functional diversity in multicellular organismsA large-scale evaluation of computational protein function predictionIdentification, analysis, and prediction of protein ubiquitination sitesBioinformatics curriculum guidelines: toward a definition of core competenciesAdvancement in protein inference from shotgun proteomics using peptide detectabilityAnalysis of molecular recognition features (MoRFs)An expanded evaluation of protein function prediction methods shows an improvement in accuracyEvaluating purifying selection in the mitochondrial DNA of various mammalian speciesThe importance of intrinsic disorder for protein phosphorylationTen simple rules for a community computational challengeImproved amino acid flexibility parameters.Exploiting heterogeneous sequence properties improves prediction of protein disorder.Length-dependent prediction of protein intrinsic disorder.Influence of sequence changes and environment on intrinsically disordered proteins.Automated inference of molecular mechanisms of disease from amino acid substitutions.Post-translational modifications induce significant yet not extreme changes to protein structure.Combinatorial libraries of synthetic peptides as a model for shotgun proteomics.Intrinsic disorder is a common feature of hub proteins from four eukaryotic interactomesHIP2: an online database of human plasma proteins from healthy individuals.Analysis of AML genes in dysregulated molecular networksAn integrated approach to inferring gene-disease associations in humans.On the accuracy and limits of peptide fragmentation spectrum predictionStructure-based kernels for the prediction of catalytic residues and their involvement in human inherited disease.Investigation of VUV Photodissociation Propensities Using Peptide Libraries.The impact of incomplete knowledge on the evaluation of protein function prediction: a structured-output learning perspectiveDisProt: a database of protein disorder.Computational approaches to protein inference in shotgun proteomics.Extending the coverage of spectral libraries: a neighbor-based approach to predicting intensities of peptide fragmentation spectra.Quantitative measurement of phosphoproteome response to osmotic stress in arabidopsis based on Library-Assisted eXtracted Ion Chromatogram (LAXIC)Comparing phylogeny and the predicted pathogenicity of protein variations reveals equal purifying selection across the global human mtDNA diversity.In silico functional profiling of human disease-associated and polymorphic amino acid substitutions.Calibration of multiple in silico tools for predicting pathogenicity of mismatch repair gene missense substitutions.On the split personality of penultimate prolineIntrinsic disorder and functional proteomics.Intrinsic Size Parameters for Palmitoylated and Carboxyamidomethylated PeptidesExamining the Influence of Phosphorylation on Peptide Ion Structure by Ion Mobility Spectrometry-Mass Spectrometry.The Loss and Gain of Functional Amino Acid Residues Is a Common Mechanism Causing Human Inherited Disease
P50
Q21092516-5C5F0BB4-C20D-400F-924E-ADB69378B7B3Q21145323-E09F2BB5-C6EC-41E4-BC93-5E54B8E029FFQ24288781-EF2BCAAC-B493-4500-9914-C07EC440476EQ24548466-64DFFFE1-A3F8-4B93-8C06-590875087FF2Q24614831-EE43C8E9-949A-4548-BFC8-2A55718F552DQ24624622-3D41A7FF-BEC9-4307-87B2-2CB52AE8FDA8Q24810391-0DB1A42A-C9E9-4EF8-9C3A-6459A81DF2ABQ28256700-2C05903A-ED53-4C8E-9854-1CA37EA6DB3FQ28260253-6A03D064-3608-4250-AB87-E6190F167643Q28596092-363343F1-283A-4B21-853C-329925964708Q28709599-814EAC8D-8807-47D7-8A05-8024297AE2B3Q28776125-C027EDCC-A206-40EC-84B1-C0FE2C73BD36Q28974681-CFF8BD3D-A1DB-40D6-9ED5-FCCA8256DC68Q30332782-18504A8C-E431-4F3C-94AB-D6179495690DQ30351476-52A5F2C3-9A1D-4DB6-98F4-AEF4133E2D7AQ30353929-3AC0F306-E788-427A-97C8-841765CC23EBQ30380392-64A35DA8-35DF-43DF-94F5-36D9D44CADF4Q30380440-EE4B07C5-8AEA-40A1-A012-E10520650497Q30420946-3A559786-FFDE-4612-8B6F-604E716974FBQ30986588-37EB88EC-A0B0-4D29-9647-262A23393116Q33252616-96BC1C82-9FC7-42C2-8E32-6793226C8A56Q33331037-D56869BF-726A-4D0B-AADA-89357AD13D4DQ33504376-1EB9CD03-2C80-4973-95C4-F021369054B5Q33669063-8993B19A-B3DA-4248-9E14-24317CECBED7Q33777108-42B31154-803F-46BA-A357-688BE128E08FQ34046936-576C9517-A14C-4CDE-99DE-B2D3173D465BQ34085553-1EBF77E4-ED4B-4659-8CB8-595F47B03D24Q34103226-5CDA89A3-8F33-4EC4-8751-34A8DA7E7997Q34341031-524ED34F-3EAA-40E9-9564-11031DDF3A4BQ34486852-C0EB6EEF-5AEE-4FC6-A9C7-A57D352C1008Q34543325-9C9EC0FF-2A70-4FE2-BD09-1D6BEC2585A6Q34713930-E1E65C65-C8D5-4186-B09B-A1AF5B60800AQ34768383-A1145A36-04F3-40AE-A34F-062E8D92D698Q34995109-B36B2557-14CC-4199-9AF9-34B2E5635FA0Q35053897-BCC70A46-E24C-4961-9822-AB381D57685BQ35517049-ED1A24BD-2462-4415-BC60-634ECD5624CBQ35632957-BB9E584F-E93E-4014-BBED-C61791B933B2Q35645843-BA866AE7-839E-4241-B58B-FB01972949F4Q35918508-6A5A2A3F-3EB5-49BC-B0D4-36D2C50C74D4Q36114159-7E9411B5-4A54-4C2A-8CE4-5A42358790B3
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Predrag Radivojac
@ast
Predrag Radivojac
@en
Predrag Radivojac
@es
Predrag Radivojac
@nl
Predrag Radivojac
@sl
type
label
Predrag Radivojac
@ast
Predrag Radivojac
@en
Predrag Radivojac
@es
Predrag Radivojac
@nl
Predrag Radivojac
@sl
prefLabel
Predrag Radivojac
@ast
Predrag Radivojac
@en
Predrag Radivojac
@es
Predrag Radivojac
@nl
Predrag Radivojac
@sl