human | Q5 |
P8446 | Gateway to Research person ID | 4C2F2180-1C77-4A50-ACAB-E9C6768FD059 |
P856 | official website | http://www.birmingham.ac.uk/staff/profiles/cancer-genomic/cockerill-peter.aspx |
P496 | ORCID iD | 0000-0002-4410-8174 |
P1153 | Scopus author ID | 7004888948 |
P69 | educated at | University of Melbourne | Q319078 |
Institute of Cancer Research Chester Beatty Laboratories | Q102869435 | ||
P108 | employer | University of Birmingham | Q223429 |
University of Leeds | Q503424 | ||
P734 | family name | Cockerill | Q47086458 |
Cockerill | Q47086458 | ||
Cockerill | Q47086458 | ||
P735 | given name | Peter | Q2793400 |
Peter | Q2793400 | ||
P106 | occupation | researcher | Q1650915 |
P1344 | participant in | The role of enhancers and transcription factors in the reorganisation of chromatin architecture | Q63366218 |
P21 | sex or gender | male | Q6581097 |
Q42010630 | A conserved insulator that recruits CTCF and cohesin exists between the closely related but divergently regulated interleukin-3 and granulocyte-macrophage colony-stimulating factor genes. |
Q41764560 | A modular enhancer is differentially regulated by GATA and NFAT elements that direct different tissue-specific patterns of nucleosome positioning and inducible chromatin remodeling. |
Q52840178 | A multi-centre phase 2 study of azacitidine in chronic myelomonocytic leukaemia. |
Q70932301 | A simplified method for quantitation of the relative amounts of type I and type III collagen in small tissue samples |
Q72659197 | Biochemical and histological changes in pulmonary fibrosis induced in rabbits with intratracheal bleomycin |
Q88598284 | Chromatin Structure Profiling Identifies Crucial Regulators of Tumor Maintenance |
Q50604412 | Chromatin priming elements establish immunological memory in T cells without activating transcription: T cell memory is maintained by DNA elements which stably prime inducible genes without activating steady state transcription. |
Q39129908 | Chromatin priming of genes in development: Concepts, mechanisms and consequences |
Q41089332 | Chronic FLT3-ITD Signaling in Acute Myeloid Leukemia Is Connected to a Specific Chromatin Signature. |
Q72784411 | Comparisons of the structures of the chromosomal high mobility group proteins HMG1 and HMG2 prepared under conditions of neutral and acidic pH |
Q37545749 | Cooperative binding of AP-1 and TEAD4 modulates the balance between vascular smooth muscle and hemogenic cell fate |
Q44137334 | Delineating MEIS1 cis-regulatory elements active in hematopoietic cells |
Q67291836 | Demonstration of an S1-nuclease sensitive site near the human beta-globin gene, and its protection by HMG 1 and 2 |
Q36166902 | Depletion of RUNX1/ETO in t(8;21) AML cells leads to genome-wide changes in chromatin structure and transcription factor binding. |
Q52904089 | Derepression of an endogenous long terminal repeat activates the CSF1R proto-oncogene in human lymphoma. |
Q45838764 | Fractionation by high-performance liquid chromatography of the low-molecular-mass high-mobility-group (HMG) chromosomal proteins present in proliferating rat cells and an investigation of the HMG proteins present in virus transformed cells. |
Q74241033 | Generation of an improved luciferase reporter gene plasmid that employs a novel mechanism for high-copy replication |
Q90463796 | Global long terminal repeat activation participates in establishing the unique gene expression programme of classical Hodgkin lymphoma |
Q39962201 | Granulocyte-macrophage colony-stimulating factor enhancer activation requires cooperation between NFAT and AP-1 elements and is associated with extensive nucleosome reorganization. |
Q36550421 | Human granulocyte-macrophage colony-stimulating factor enhancer function is associated with cooperative interactions between AP-1 and NFATp/c |
Q99545034 | IL-2/IL-7-inducible factors pioneer the path to T cell differentiation in advance of lineage-defining factors |
Q35806108 | Identification of a dynamic core transcriptional network in t(8;21) AML that regulates differentiation block and self-renewal |
Q38697697 | Inducible chromatin priming is associated with the establishment of immunological memory in T cells. |
Q52843064 | Induction of differentiation and apoptosis in leukaemic cell lines by the novel benzamide family histone deacetylase 2 and 3 inhibitor MI-192. |
Q42270082 | Integration of Kinase and Calcium Signaling at the Level of Chromatin Underlies Inducible Gene Activation in T Cells |
Q67990304 | Isolation and characterization of the promoter region of the human intercellular adhesion molecule-1 gene |
Q34408939 | Mapping of transcription factor motifs in active chromatin identifies IRF5 as key regulator in classical Hodgkin lymphoma |
Q36074322 | Mechanisms of transcriptional regulation of the human IL-3/GM-CSF locus by inducible tissue-specific promoters and enhancers. |
Q52851799 | NFAT is well placed to direct both enhancer looping and domain-wide models of enhancer function. |
Q36722675 | Octamer-binding proteins in diverse hemopoietic cells. |
Q47295106 | Partial purification of low molecular weight non-suppressible insulin-like activity from human plasma: demonstration of the presence of multiple forms. |
Q41321988 | Prognostic significance of high GFI1 expression in AML of normal karyotype and its association with a FLT3-ITD signature. |
Q57293756 | Prospective Isolation and Characterization of Genetically and Functionally Distinct AML Subclones |
Q38328167 | Protein:DNA interactions at chromosomal loop attachment sites. |
Q33759034 | RUNX1-ETO and RUNX1-EVI1 Differentially Reprogram the Chromatin Landscape in t(8;21) and t(3;21) AML. |
Q73163154 | Reconstitution of T cell-specific transcription directed by composite NFAT/Oct elements |
Q91531299 | Rewiring of the Transcription Factor Network in Acute Myeloid Leukemia |
Q83181552 | Role of a 5'-enhancer in the transcriptional regulation of the human endothelial cell protein C receptor gene |
Q28282851 | Runx1 binds as a dimeric complex to overlapping Runx1 sites within a palindromic element in the human GM-CSF enhancer |
Q37866375 | Structure and function of active chromatin and DNase I hypersensitive sites. |
Q64911185 | Subtype-specific regulatory network rewiring in acute myeloid leukemia. |
Q39186442 | T Cell Receptor and Cytokine Signaling Can Function at Different Stages to Establish and Maintain Transcriptional Memory and Enable T Helper Cell Differentiation. |
Q38360104 | The LPS-induced transcriptional upregulation of the chicken lysozyme locus involves CTCF eviction and noncoding RNA transcription. |
Q57293716 | The Oncogenic Transcription Factor RUNX1/ETO Corrupts Cell Cycle Regulation to Drive Leukemic Transformation |
Q42630632 | The Pu.1 locus is differentially regulated at the level of chromatin structure and noncoding transcription by alternate mechanisms at distinct developmental stages of hematopoiesis. |
Q36176835 | The granulocyte-macrophage colony-stimulating factor/interleukin 3 locus is regulated by an inducible cyclosporin A-sensitive enhancer. |
Q51887165 | The human IL-3/granulocyte-macrophage colony-stimulating factor locus is epigenetically silent in immature thymocytes and is progressively activated during T cell development. |
Q36781258 | The human granulocyte-macrophage colony-stimulating factor gene is autonomously regulated in vivo by an inducible tissue-specific enhancer. |
Q38344347 | Transcriptional and epigenetic regulation of the GM-CSF promoter by RUNX1. |
Q40547447 | Transcriptional regulation of human CD5: important role of Ets transcription factors in CD5 expression in T cells. |
Q29041393 | Tumor necrosis factor- induces adhesion molecule expression through the sphingosine kinase pathway |
Q68340566 | Two methods that facilitate autoradiography of small 32P-labeled DNA fragments following electrophoresis in agarose gels |
Q35853353 | Wellington-bootstrap: differential DNase-seq footprinting identifies cell-type determining transcription factors |
Q30670345 | Wellington: a novel method for the accurate identification of digital genomic footprints from DNase-seq data |
Q63366218 | The role of enhancers and transcription factors in the reorganisation of chromatin architecture | participant | P710 |
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