PhyloGibbs: a Gibbs sampling motif finder that incorporates phylogenyDisentangling direct from indirect co-evolution of residues in protein alignmentsAn atlas of combinatorial transcriptional regulation in mouse and manNeutral evolution of mutational robustnessMicroRNA-221-222 regulate the cell cycle in mast cellsIdentification of clustered microRNAs using an ab initio prediction methodSwissRegulon, a database of genome-wide annotations of regulatory sites: recent updatesThe evolution of domain-content in bacterial genomesARMADA: Using motif activity dynamics to infer gene regulatory networks from gene expression data.Computational analysis of small RNA cloning data.SPA: a probabilistic algorithm for spliced alignment.A simple physical model predicts small exon length variations.Inference of miRNA targets using evolutionary conservation and pathway analysis.Finding regulatory elements and regulatory motifs: a general probabilistic framework.Methods for analyzing deep sequencing expression data: constructing the human and mouse promoterome with deepCAGE data.ISMARA: automated modeling of genomic signals as a democracy of regulatory motifs.Analysis of human immunodeficiency virus cytopathicity by using a new method for quantitating viral dynamics in cell culture.Fifteen years SIB Swiss Institute of Bioinformatics: life science databases, tools and support.Transcription factor binding site positioning in yeast: proximal promoter motifs characterize TATA-less promoters.Modeling of epigenome dynamics identifies transcription factors that mediate Polycomb targeting.Embryonic stem cell-specific microRNAs contribute to pluripotency by inhibiting regulators of multiple differentiation pathwaysTranscriptional network analysis in muscle reveals AP-1 as a partner of PGC-1α in the regulation of the hypoxic gene programProbabilistic clustering of sequences: inferring new bacterial regulons by comparative genomics.Scaling laws in the functional content of genomes.Co-expression of FBN1 with mesenchyme-specific genes in mouse cell lines: implications for phenotypic variability in Marfan syndromeA promoter-level mammalian expression atlasQuantitative analysis of persister fractions suggests different mechanisms of formation among environmental isolates of E. coli.Klf4 is a transcriptional regulator of genes critical for EMT, including Jnk1 (Mapk8).The transcriptional network that controls growth arrest and differentiation in a human myeloid leukemia cell line.Nucleosome free regions in yeast promoters result from competitive binding of transcription factors that interact with chromatin modifiers.A large-scale, in vivo transcription factor screen defines bivalent chromatin as a key property of regulatory factors mediating Drosophila wing development.Expression noise facilitates the evolution of gene regulation.Splice variation in mouse full-length cDNAs identified by mapping to the mouse genomeAdipose tissue microRNAs as regulators of CCL2 production in human obesityThe corepressor NCoR1 antagonizes PGC-1α and estrogen-related receptor α in the regulation of skeletal muscle function and oxidative metabolism.The types and prevalence of alternative splice forms.Genome-wide expression profiling, in vivo DNA binding analysis, and probabilistic motif prediction reveal novel Abf1 target genes during fermentation, respiration, and sporulation in yeast.Parity induces differentiation and reduces Wnt/Notch signaling ratio and proliferation potential of basal stem/progenitor cells isolated from mouse mammary epitheliumComputational analysis of full-length cDNAs reveals frequent coupling between transcriptional and splicing programsThe functional importance of telomere clustering: global changes in gene expression result from SIR factor dispersion.
P50
Q21145693-D3D545EC-305C-49D1-A336-9D830B0FA2C9Q21563484-86AAB7ED-C155-4091-A6F0-400ED8F4916FQ24630300-ED6AEB2D-9AB1-4385-B493-C5BB22280992Q24655790-81FCC2EF-1582-448D-8ABA-6A8CCDB4DFF2Q24656557-8C31F80E-8633-4E7E-A899-7122EB358B84Q24812490-EF03FA1F-BAE0-4BC6-ABB7-B359ADF4F5E5Q28710194-BFFCBA9D-681E-4A4A-9998-9E9967D51B2AQ28755842-276F1A23-1364-459A-97A0-BED40504624EQ30979790-CE821648-EAFC-4125-AE2B-A0D9962DF736Q31141348-74746B85-3A6D-4FFA-9A88-9CED615D2FD0Q33242808-2CE87213-33AF-4E33-8FD8-5A1A0C44F63BQ33242815-C4AD3ADD-4E17-4FE9-AFB7-8C8E11BE954AQ33276269-FEC1E04E-9A4E-4549-845B-57A8B505308CQ33300800-3928E69E-258B-4AE7-A83A-78012C2CB673Q33485579-9A7CE6FB-16C8-4BA4-9DA9-C999CEE9F4F5Q33564556-8A6460C0-50CC-4297-9967-912166B4CEA4Q33707384-F1F025A8-903F-41AE-B9EB-717474B6CEF5Q33860694-284DE0FC-6C0A-49A6-9C3A-C60D74AE6071Q34023338-D1A82451-D058-4934-96D3-11C0A820615AQ34033556-27A0A436-FDB7-4922-BC14-791DACEE1785Q34044263-917BECBB-4223-4A2F-980E-A9109388CAC0Q34056556-465B0C80-965C-4BE7-81F0-1C33186A75CFQ34063477-2A7B02EC-3694-4497-B949-B22B955F794AQ34228161-1BB436BD-DDFE-4214-9B2E-E6A3BE5413A4Q34329711-6236ABCE-4FBD-4C0A-95B7-D6DE374774B9Q34412203-3BA8FF55-617F-4959-A7B3-180E83A6218CQ34573964-3CD0750C-4DF7-444B-937E-4C17EE91BA99Q34603384-BD95EC51-71D5-420B-B25A-5EEF2588EAD3Q34976601-988D5FEE-4B40-4870-9269-0779E639B0B5Q34976936-B821BC60-5729-444A-9600-F07EB0779E92Q35238267-789E15F0-ADE2-41C6-976A-04AD77D13746Q35746849-1F700473-D762-42CB-81A5-956FCA9D8B4BQ35787067-4E44FCB0-14A1-4B77-BA53-22F3A17C7232Q36109330-247DA3B4-F105-480A-BBA0-7A23967B7A63Q36435183-9524D636-0B82-4BEA-AC83-9EE03B80732DQ36483401-1DF86ED9-D111-462A-9D36-A249E179684BQ36631251-F6A886B8-8172-453F-9B22-359A2A96BDDFQ36902954-EB67BD0A-B8D1-489A-9A05-2A528E3F5702Q37115973-9C91A006-18FD-4864-9BD1-282BB422CCC0Q37150874-33EA5315-654C-4DAE-B86D-FC5D405F5396
P50
description
Nederlands hoogleraar
@nl
computational biologist
@en
niederländischer Bioinformatik ...... der Universität Basel, Schweiz
@de
profesor universitario neerlandés
@es
profesor universitario neerlandés
@gl
profesor universitariu neerlandés
@ast
professeur d'université néerlandais
@fr
professor d'universitat neerlandès
@ca
professor universitário neerlandês
@pt
professore universitario neerlandese
@it
name
Erik van Nimwegen
@ast
Erik van Nimwegen
@ca
Erik van Nimwegen
@da
Erik van Nimwegen
@de
Erik van Nimwegen
@en
Erik van Nimwegen
@es
Erik van Nimwegen
@fo
Erik van Nimwegen
@fr
Erik van Nimwegen
@is
Erik van Nimwegen
@kl
type
label
Erik van Nimwegen
@ast
Erik van Nimwegen
@ca
Erik van Nimwegen
@da
Erik van Nimwegen
@de
Erik van Nimwegen
@en
Erik van Nimwegen
@es
Erik van Nimwegen
@fo
Erik van Nimwegen
@fr
Erik van Nimwegen
@is
Erik van Nimwegen
@kl
prefLabel
Erik van Nimwegen
@ast
Erik van Nimwegen
@ca
Erik van Nimwegen
@da
Erik van Nimwegen
@de
Erik van Nimwegen
@en
Erik van Nimwegen
@es
Erik van Nimwegen
@fo
Erik van Nimwegen
@fr
Erik van Nimwegen
@is
Erik van Nimwegen
@kl
P69
P1006
P214
P227
P1006
P106
P19
P21
P213
0000 0003 9108 6446
P214
P227
1161700501
P2456
P31
P496
0000-0001-6338-1312
P569
1970-11-05T00:00:00Z
P735
P7859
viaf-284834326