about
r3Cseq: an R/Bioconductor package for the discovery of long-range genomic interactions from chromosome conformation capture and next-generation sequencing dataThe genome-wide dynamics of the binding of Ldb1 complexes during erythroid differentiation.Preparation of recombinant proteins in milk to improve human and animal health.Multiplexed chromosome conformation capture sequencing for rapid genome-scale high-resolution detection of long-range chromatin interactions.Pre-B cell receptor signaling induces immunoglobulin κ locus accessibility by functional redistribution of enhancer-mediated chromatin interactions.Nucleolin interacts with US11 protein of herpes simplex virus 1 and is involved in its traffickingDynamic long-range chromatin interactions control Myb proto-oncogene transcription during erythroid developmentUnbiased Interrogation of 3D Genome Topology Using Chromosome Conformation Capture Coupled to High-Throughput Sequencing (4C-Seq).TRIM33 switches off Ifnb1 gene transcription during the late phase of macrophage activation.Control of developmentally primed erythroid genes by combinatorial co-repressor actionsIn vivo live imaging of RNA polymerase II transcription factories in primary cells.Preparation of recombinant vaccines.Macrophage production and activation are dependent on TRIM33.A systems approach to analyze transcription factors in mammalian cells.DNA-binding factor CTCF and long-range gene interactions in V(D)J recombination and oncogene activation.Genome-wide analysis shows that Ldb1 controls essential hematopoietic genes/pathways in mouse early development and reveals novel players in hematopoiesis.A novel complex, RUNX1-MYEF2, represses hematopoietic genes in erythroid cellsLong-range gene regulation and novel therapeutic applications.HBS1L-MYB intergenic variants modulate fetal hemoglobin via long-range MYB enhancers.NLS-tagging: an alternative strategy to tag nuclear proteins.Enhancers and their dynamics during hematopoietic differentiation and emerging strategies for therapeutic action.A short Gfi-1B isoform controls erythroid differentiation by recruiting the LSD1-CoREST complex through the dimethylation of its SNAG domain.Genome-wide characterization of mammalian promoters with distal enhancer functions.In vivo live imaging of RNA polymerase II transcription factories in primary cells.The Isl1/Ldb1 Complex Orchestrates Genome-wide Chromatin Organization to Instruct Differentiation of Multipotent Cardiac Progenitors.Locus-specific proteomics by TChP: targeted chromatin purification.ETO2-GLIS2 Hijacks Transcriptional Complexes to Drive Cellular Identity and Self-Renewal in Pediatric Acute Megakaryoblastic Leukemia.Derepression of an endogenous long terminal repeat activates the CSF1R proto-oncogene in human lymphoma.The SCL/TAL1 Transcription Factor Represses the Stress Protein DDiT4/REDD1 in Human Hematopoietic Stem/Progenitor Cells.The DNA-Binding Protein CTCF Limits Proximal Vκ Recombination and Restricts κ Enhancer Interactions to the Immunoglobulin κ Light Chain LocusRecombinant rotavirus inner core proteins produced in the milk of transgenic rabbits confer a high level of protection after intrarectal deliveryProduction of two vaccinating recombinant rotavirus proteins in the milk of transgenic rabbitsTargeting epigenetics to speed up repairIn vivo live imaging of RNA polymerase II transcription factories in primary cells
P50
Q30625699-D54E05B1-E08E-4616-9D63-DFA3D66FF5DEQ33612363-A61A9DB2-9054-4ADA-B735-9A2E6A79697DQ34581876-6584BD4B-2135-4D15-BD9D-C3E19CD44B08Q34587822-ED1548C7-3986-4BEB-831F-F587D722490BQ35099409-E224DC37-0676-4902-AF02-D3E88A718CEAQ35689672-8571E7B2-F4FD-460D-B38D-ED170C724A95Q35759986-DB31A5B7-3DC8-4F3D-A7D8-98600B3E31B5Q36189043-19D97B6F-2DFD-4D09-A278-303B6E72CDD8Q36358084-992B80AC-E7AE-45A9-9E3F-9C1BE875615BQ36358111-6C7C379A-4614-4B27-A042-A89A25C47A1CQ36804109-F5B2B9CF-EB36-4A77-8B8F-54E0429C20E6Q36944222-4479C967-7F33-4619-8399-FE3252DB573EQ37706314-72DE97BB-FE87-4834-AF8C-A683AFBFC37AQ37779600-1A712903-B59D-4D84-B428-8D75D409DBFAQ38005929-200C9898-98F1-48F7-801E-4F4E4FC12679Q38317878-4A5FF2FE-AE2F-488D-88DA-AC7054962B48Q38323565-A98B8903-F23F-4036-8692-FBE7BEB4DA3EQ38330749-14F8585B-D653-4AEB-8977-E3577118FC0FQ38592271-F4BB7544-8577-4DEA-994C-D80E92982A8BQ38953015-1FB9F6F4-0A70-4D97-9B1B-9CD278A1A46EQ38958989-82AACDC8-C90F-4378-B774-18BBD2BF1AFDQ39383466-DF08B0A2-E3D0-4CA0-921F-CA642067EC98Q42800050-2BDA9448-6B5C-49A2-AF30-D4C2233BA0EBQ45879279-09CF81EA-B5BE-424E-B219-3AF07B19DE09Q46058310-1685217B-DDF3-42DC-9BCA-83748074316EQ47871161-94D52A56-4832-456F-BA45-168DCCF86589Q51099410-EB9BD49E-19E4-4FC3-9D4E-ACAF39C4F4FCQ52904089-2DAA7BA6-FA3C-4B08-A2AB-705E35090D4AQ52952618-69152A12-CE49-4E74-AD11-1B318EA89E80Q57618998-61CD202C-C83B-4AE8-9A63-58F6B5D8240AQ80607738-F407F387-1F5B-4E60-A55A-729DABB4F793Q81546580-F25A4F07-7646-464F-8CEC-1842636C37B9Q87801683-FDD6BBD0-3D85-4C0C-A94B-954C2456121EQ93585586-FB67F26A-FC4E-4E57-A781-8B5515136D64
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Eric Soler
@ast
Eric Soler
@en
Eric Soler
@es
Eric Soler
@nl
Eric Soler
@sl
type
label
Eric Soler
@ast
Eric Soler
@en
Eric Soler
@es
Eric Soler
@nl
Eric Soler
@sl
prefLabel
Eric Soler
@ast
Eric Soler
@en
Eric Soler
@es
Eric Soler
@nl
Eric Soler
@sl
P106
P31
P496
0000-0003-0521-7463