about
Explaining disease using big data: How valid is your pathway?Disordered flanks prevent peptide aggregationProtein fold evolution on completed genomes: distinguishing between young and old foldsHow old is your fold?Fold usage on genomes and protein fold evolution.Unraveling the outcome of 16S rDNA-based taxonomy analysis through mock data and simulations.The hydrophobic temperature dependence of amino acids directly calculated from protein structuresIntegration of EGA secure data access into GalaxyUsing phylogeny to improve genome-wide distant homology recognition.Exploring fold space preferences of new-born and ancient protein superfamiliesCoarse-grained versus atomistic simulations: realistic interaction free energies for real proteins.Quantifying the displacement of mismatches in multiple sequence alignment benchmarks.High Prevalence and Clinical Relevance of Genes Affected by Chromosomal Breaks in Colorectal Cancer.Mapping the Protein Fold Universe Using the CamTube Force Field in Molecular Dynamics SimulationsBioASF: a framework for automatically generating executable pathway models specified in BioPAX.GeneBreak: detection of recurrent DNA copy number aberration-associated chromosomal breakpoints within genes.Mechanical Unfolding of an Autotransporter Passenger Protein Reveals the Secretion Starting Point and Processive Transport Intermediates.Integrating Candida albicans metabolism with biofilm heterogeneity by transcriptome mapping.metaModules identifies key functional subnetworks in microbiome-related disease.NGS-eval: NGS Error analysis and novel sequence VAriant detection tooL.A simple lattice model that captures protein folding, aggregation and amyloid formation.Accounting for protein-solvent contacts facilitates design of nonaggregating lattice proteins.Comparing clustering and pre-processing in taxonomy analysis.Bioinformatics and systems biology: bridging the gap between heterogeneous student backgrounds.Systematically linking tranSMART, Galaxy and EGA for reusing human translational research data.Multiple Sequence Alignment.Aurora kinase A (AURKA) interaction with Wnt and Ras-MAPK signalling pathways in colorectal cancer.Training for translation between disciplines: a philosophy for life and data sciences curricula.Consistent Treatment of Hydrophobicity in Protein Lattice Models Accounts for Cold DenaturationCorrectionECCB 2016: The 15th European Conference on Computational BiologyCompetition between surface adsorption and folding of fibril-forming polypeptidesInterplay between Folding and Assembly of Fibril-Forming PolypeptidesMultiple alignment of transmembrane protein sequencesLinking evolution of protein structures through fragmentsUsing phylogeny to improve genome wide distant homology recognitionMotif-Aware PRALINE: Improving the alignment of motif regionsSCRY: Extending SPARQL with Custom Data Processing Methods for the Life SciencesSeRenDIP: SEquential REmasteriNg to DerIve profiles for fast and accurate predictions of PPI interface positionsTailor-made multiple sequence alignments using the PRALINE 2 alignment toolkit
P50
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P50
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Sanne Abeln
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P106
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P21
P2456
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2000-01-01T00:00:00Z
P734
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