about
The DNA sequence and biological annotation of human chromosome 1The DNA sequence of human chromosome 7Fine-scale structural variation of the human genomeMapping and sequencing of structural variation from eight human genomesThe accessible chromatin landscape of the human genomeThe DNA sequence, annotation and analysis of human chromosome 3An expansive human regulatory lexicon encoded in transcription factor footprintsSystematic localization of common disease-associated variation in regulatory DNATargeted, haplotype-resolved resequencing of long segments of the human genome.Closing gaps in the human genome with fosmid resources generated from multiple individuals.Analysis of the genome of the Escherichia coli O157:H7 2006 spinach-associated outbreak isolate indicates candidate genes that may enhance virulence.Epigenetic regulation by chromatin activation mark H3K4me3 in primate progenitor cells within adult neurogenic niche52 Genetic Loci Influencing Myocardial Mass.Ancient haplotypes of the HLA Class II region.Reduced local mutation density in regulatory DNA of cancer genomes is linked to DNA repair.Evolution of Burkholderia pseudomallei in recurrent melioidosis.A comparative encyclopedia of DNA elements in the mouse genomeTranscriptome profiling of human hippocampus dentate gyrus granule cells in mental illnessMouse regulatory DNA landscapes reveal global principles of cis-regulatory evolutionThe human mitochondrial transcriptomePotential source of Francisella tularensis live vaccine strain attenuation determined by genome comparison.BEDOPS: high-performance genomic feature operations.Large-scale identification of sequence variants influencing human transcription factor occupancy in vivoGenome sequence of Francisella tularensis subspecies holarctica strain FSC200, isolated from a child with tularemia.Polymyxin resistance of Pseudomonas aeruginosa phoQ mutants is dependent on additional two-component regulatory systems.Large-insert genome analysis technology detects structural variation in Pseudomonas aeruginosa clinical strains from cystic fibrosis patients.Exonic transcription factor binding directs codon choice and affects protein evolution.Developmental fate and cellular maturity encoded in human regulatory DNA landscapes.Comparison of Francisella tularensis genomes reveals evolutionary events associated with the emergence of human pathogenic strains.Conservation of trans-acting circuitry during mammalian regulatory evolution.Methylobacterium genome sequences: a reference blueprint to investigate microbial metabolism of C1 compounds from natural and industrial sources.Rare Variants of the Serotonin Transporter Are Associated With Psychiatric Comorbidity in Irritable Bowel Syndrome.Mapping and dynamics of regulatory DNA and transcription factor networks in A. thaliana.Erratum: The DNA sequence and biological annotation of human chromosome 1Erratum: Large-scale identification of sequence variants influencing human transcription factor occupancy in vivo
P50
Q21735919-206ED923-A242-4D5B-8763-4B8EA000DA28Q21735924-DE19AE4E-CD97-43E3-8DEE-9B953D68F034Q22122044-0F00F8D7-767A-4213-82D5-6A1ADCDF2F78Q22122215-F9BF3282-474A-4836-B7EE-7F76EFA01D11Q24595581-BA3F17B4-0820-4CB1-B80F-B9EF3D46C609Q28236820-54449C31-6BD7-4ABB-898D-D31D06FC6636Q28274429-E569F194-1EA7-44ED-8A1B-3EE60292D763Q29614895-424EF84E-C2FB-4617-8DCE-408710AA5097Q33225950-4C79DBC3-606A-415C-8E46-63A3455E24A6Q33312214-042E1394-5C1A-45FF-87FE-C5B258AD37BCQ33385189-B10EA60F-9A3F-472D-BD68-9A86E8EED315Q33781132-340CF25F-5FDD-42C4-AF63-3A33EFBF97DCQ33817558-78752993-FD1E-4915-A515-80BBBEFB353AQ33942592-0B04B317-882F-4F43-BC87-F7E743D3E47DQ33976821-FAD0775A-ED93-4AD6-B242-9B845B6525EBQ34277284-8DCBB14F-4C32-4FA4-ADBB-256B7703ED23Q34700119-A473953F-6FBC-44CF-8E8D-4BDA1FC31075Q35110815-C9D37CC9-B06A-416C-95C0-60D4707AF8FCQ35111710-3EBF23D5-7943-4599-8888-E63EC899FEDBQ35178219-6E55E55A-67E7-419C-BBC6-E634D70210C9Q35220372-991C050E-1400-4F75-9E33-45A341FE8A94Q36076319-3D533A2A-174A-4D18-95E6-FC95BCFFB720Q36338647-51DA9C4D-9E1C-4B98-8BCC-F32C76F24DE4Q36435276-230B196B-8445-4B2C-99BC-7CA1514F12EEQ36785850-0014AC92-E473-4292-B0A7-FE82A32391BBQ36984255-12D85B7C-B914-465A-822B-71D0B22E36CDQ37668081-BCC00B9A-BE70-49F1-A5DE-247B7F167A4CQ38394827-E6B623A4-A1D0-4ED4-A4D4-8C6F90821BD1Q38606114-3462FFCC-69AC-4445-A0C0-8FFFC761B947Q39843784-F9C0FD88-6741-490C-8D9A-B0AEC926FDF0Q41944754-74E3BBD9-0883-4F94-A482-BC9AB0A6770AQ48063056-FA4023BE-F0B8-4017-A3B4-C565BCEEF4F6Q50634684-5DA049A4-9854-46FA-81E5-1E5B655435F3Q57090455-E5D23CFF-84C9-4A62-AB55-C896C2BBA651Q57634954-905AE67E-026A-4393-9BC2-A7E3FC5C773A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Eric Haugen
@ast
Eric Haugen
@en
Eric Haugen
@es
Eric Haugen
@fr
Eric Haugen
@nl
Eric Haugen
@sl
type
label
Eric Haugen
@ast
Eric Haugen
@en
Eric Haugen
@es
Eric Haugen
@fr
Eric Haugen
@nl
Eric Haugen
@sl
prefLabel
Eric Haugen
@ast
Eric Haugen
@en
Eric Haugen
@es
Eric Haugen
@fr
Eric Haugen
@nl
Eric Haugen
@sl
P106
P1153
7004389106
P21
P31
P496
0000-0001-7444-8981