about
Complex Loci in human and mouse genomesAn atlas of combinatorial transcriptional regulation in mouse and manThe SIB Swiss Institute of Bioinformatics' resources: focus on curated databasesPromoter architecture of mouse olfactory receptor genesDifferential evolution of the 13 Atlantic salmon Hox clusters.Translog, a web browser for studying the expression divergence of homologous genes.Dissecting the transcriptional regulatory properties of human chromosome 16 highly conserved non-coding regionsConservation and divergence in Toll-like receptor 4-regulated gene expression in primary human versus mouse macrophages.Base-pair resolution DNA methylation sequencing reveals profoundly divergent epigenetic landscapes in acute myeloid leukemia.An optimized algorithm for detecting and annotating regional differential methylation.The transcriptional network that controls growth arrest and differentiation in a human myeloid leukemia cell line.NanoCAGE analysis of the mouse olfactory epithelium identifies the expression of vomeronasal receptors and of proximal LINE elements.DoRiNA 2.0--upgrading the doRiNA database of RNA interactions in post-transcriptional regulation.methylKit: a comprehensive R package for the analysis of genome-wide DNA methylation profilesTwo independent transcription initiation codes overlap on vertebrate core promotersInduction of sarcomas by mutant IDH2Dynamic regulation of the transcription initiation landscape at single nucleotide resolution during vertebrate embryogenesisStrategies for analyzing bisulfite sequencing data.The RNA workbench: best practices for RNA and high-throughput sequencing bioinformatics in Galaxy.RCAS: an RNA centric annotation system for transcriptome-wide regions of interest.Genomic profiling of DNA methyltransferases reveals a role for DNMT3B in genic methylation.RNA localization is a key determinant of neurite-enriched proteome.Genomic regulatory blocks encompass multiple neighboring genes and maintain conserved synteny in vertebrates.Transcriptional features of genomic regulatory blocks.Widespread activation of antisense transcription of the host genome during herpes simplex virus 1 infection.Cis-regulatory characterization of sequence conservation surrounding the Hox4 genes.RNA polymerase II primes Polycomb-repressed developmental genes throughout terminal neuronal differentiation.Genomation: a toolkit to summarize, annotate and visualize genomic intervals.Nuclear Organization in the Spinal Cord Depends on Motor Neuron Lamination Orchestrated by Catenin and Afadin Function.netSmooth: Network-smoothing based imputation for single cell RNA-seq.PiGx: Reproducible genomics analysis pipelines with GNU GuixReproducible genomics analysis pipelines with GNU GuixnetSmooth: Network-smoothing based imputation for single cell RNA-seqHOT or not: Examining the basis of high-occupancy target regionsStrategies for analyzing bisulfite sequencing dataZebrafish enhancer detection (ZED) vector: A new tool to facilitate transgenesis and the functional analysis ofcis-regulatory regions in zebrafishFACT Sets a Barrier for Cell Fate Reprogramming in Caenorhabditis elegans and Human CellsGlobal identification of functional microRNA-mRNA interactions in DrosophilaAlternative 3' UTRs direct localization of functionally diverse protein isoforms in neuronal compartments.Single-cell RNA-sequencing of herpes simplex virus 1-infected cells connects NRF2 activation to an antiviral program
P50
Q21145268-A29097E7-4545-4E84-8943-D9E44E35F743Q24630300-1AC15C66-C05F-4C69-AFD1-3AB9530EB3A6Q27968301-1000EF0B-1963-4CC9-9563-321F8AC6C955Q28508383-1E87B0AD-D6B2-4626-929B-EB86B14C3021Q33329487-B5AF6D84-E5EC-4732-BDAC-73B2DCBF9B76Q33528261-A20F872C-9252-4E93-A63C-7F93E42E6EF6Q34026313-1A183B44-EC48-4DB9-BDA3-937C8CEC6DA5Q34263905-FFB0FCE4-D3E4-47CE-9B73-A9677F4BC095Q34318280-96A63C62-5710-459C-AC02-A21E45216C87Q34756602-11E254E2-FB94-4386-BB7E-8FD40F2899EFQ34976601-5F245636-B824-43D8-B013-527D69629CE5Q35112224-F389BB36-5070-4E43-A078-0ADCB7A359BEQ35443883-2CD8BCC8-FE79-4E45-8623-5F7A8A974160Q36378100-8965D326-7896-4FA7-8AB9-610A4FCE8BF2Q36763129-E861ACFE-E365-464A-9A3C-CA25F699189DQ37220134-B0B32A48-CAFD-4D28-9FD8-8A2A37C1C220Q37272473-359E8E59-E58D-4A4A-97F5-38E1B258C0BAQ38617506-153901C3-F37C-4D9B-85E4-C36F79CCA414Q38674661-BB81627D-D281-4CE8-98BA-E84BBF80A1BFQ38882157-FB764A3D-BD57-4EB2-BC16-B15C95BDE7BFQ38918003-A3FD385C-556A-4BFD-A1BE-8419E75A5321Q41701199-63ECE25B-0FC9-44A9-BE4C-D70DBC5F6A1DQ42846668-C100627C-F373-474E-A561-EC60EAD43F6EQ43120109-AE193C17-4E17-41F9-B28E-C914BD4C6CB2Q45325452-F629DA8B-8266-43CC-A5B8-AA649E24B015Q45917144-21304F94-DFB1-4499-AFEB-DA25C357B0D1Q46594026-82B9F564-AB06-435D-AC94-D36990F9DA8DQ48535467-A8CB17FC-0658-4DA6-9DAE-4A739626C4BFQ49997213-6179C1BA-FE3E-4214-A9C0-B4DFC9ED1170Q52808206-5282C255-4C68-47FA-A96D-DB7054DBF6F9Q56962327-25C0B32B-3524-48A4-A314-E107CB56E8AFQ56962334-E75032EC-380E-4FAC-9263-DE40AF80FEB0Q56962345-BA2BD678-5343-41BE-A32A-7E38751D7778Q56962357-B5DD5FC6-F7BF-4711-BCFA-E185632B4B83Q56962363-CEE3D6B8-80ED-4466-B792-ED724B016B22Q56962385-7C4DB25C-183A-4D53-BF3D-C661DEBA890FQ58754595-CD7D8883-57B2-414F-9E28-233AA43C0AF4Q64064572-B8723E7F-5AF1-462B-A2F6-28AEBE6439B9Q64942963-B0F4F642-3BF2-4AE2-8F93-568DCA5C5B3CQ90950243-A2599DC9-3D80-40D5-988D-C6DDA99C6D46
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Altuna Akalin
@ast
Altuna Akalin
@en
Altuna Akalin
@es
Altuna Akalin
@nl
type
label
Altuna Akalin
@ast
Altuna Akalin
@en
Altuna Akalin
@es
Altuna Akalin
@nl
altLabel
ALTUNA AKALIN
@en
Altuna Alkalin
@en
prefLabel
Altuna Akalin
@ast
Altuna Akalin
@en
Altuna Akalin
@es
Altuna Akalin
@nl
P108
P1053
A-4424-2012
P106
P108
P1153
13407674400
P2456
P31
P3829
P496
0000-0002-0468-0117