about
Association of chromatin proteins high mobility group box (HMGB) 1 and HMGB2 with mitotic chromosomesHigh-throughput analysis of NF-κB dynamics in single cells reveals basal nuclear localization of NF-κB and spontaneous activation of oscillationsSustained oscillations of NF-kappaB produce distinct genome scanning and gene expression profilesHMG proteins: dynamic players in gene regulation and differentiationGR and HMGB1 interact only within chromatin and influence each other's residence timeAspirin's Active Metabolite Salicylic Acid Targets High Mobility Group Box 1 to Modulate Inflammatory ResponsesLinkage in human heterochromatin between highly divergent Sau3A repeats and a new family of repeated DNA sequences (HaeIII family).Monocytic cells hyperacetylate chromatin protein HMGB1 to redirect it towards secretion.Molecular organization and chromosomal location of human GC-rich heterochromatic blocks.New EMBO members' review: the double life of HMGB1 chromatin protein: architectural factor and extracellular signal.A hyper-dynamic equilibrium between promoter-bound and nucleoplasmic dimers controls NF-kappaB-dependent gene activity.Rapamycin-sensitive signals control TCR/CD28-driven Ifng, Il4 and Foxp3 transcription and promoter region methylation.Substantial histone reduction modulates genomewide nucleosomal occupancy and global transcriptional output.HMGB proteins and gene expression.NF-κB oscillations translate into functionally related patterns of gene expression.Analysis of GC-rich repetitive nucleotide sequences in great apes.Nucleosome loss facilitates the chemotactic response of macrophages.Single-cell analyses reveal an attenuated NF-κB response in the Salmonella-infected fibroblast.c-Rel is a selective activator of a novel IL-4/CD40 responsive element in the human Ig gamma4 germline promoter.Histone content increases in differentiating embryonic stem cells.Glycyrrhizin binds to high-mobility group box 1 protein and inhibits its cytokine activities.Receptor for Advanced Glycation Endproducts is upregulated in temporal lobe epilepsy and contributes to experimental seizures.Use of polymerase chain reaction to diagnose bovine leukemia virus infection in calves at birth.To E or not to E? Can an IL-4-induced B cell choose between IgE and IgG4?Molecular characterization of a variant of proviral bovine leukaemia virus (BLV).Detection of bovine herpes virus I (BHV-I) semen infections by a dot-blot hybridization assay.Detection of bovine leukaemia virus (BLV) infection by DNA probe technology.Analysis of gamma4 germline transcription in human B cells.A simple model of NF-κB dynamics reproduces experimental observations.NF-κB, the Importance of Being Dynamic: Role and Insights in Cancer.Chromatin conformation regulates the coordination between DNA replication and transcription.Interplay between stochasticity and negative feedback leads to pulsed dynamics and distinct gene activity patterns.HMGB1 interacts differentially with members of the Rel family of transcription factorsExpression of beta2m-Free HLA Class I Heavy Chains in Neuroblastoma Cell LinesChromosomal location by in situ hybridization of the human Sau3A family of DNA repeatsDistribution of repeated DNA families in the human genomeReplication pattern of human repeated DNA sequencesLPS-Challenged Macrophages Release Microvesicles Coated With HistonesExploiting Live Imaging to Track Nuclei During Myoblast Differentiation and Fusion
P50
Q24316385-891E23B5-D9D6-4A84-BB78-E5BC62819751Q27318882-36FE9530-D2FD-4B73-B0E8-2A6ADCF03C04Q27340574-18725D71-A520-4AC8-8B5A-B9F569ACE761Q28267498-F7452A6B-DFB6-41BE-97C7-6776C1A81050Q28569195-FD83CBDB-09DD-4CBA-8A54-C745C40F3367Q28611255-0F1FE33C-5CF9-4513-AA58-71E3D8D6A2BFQ30868732-34E1DDAE-2F50-45EB-B46B-1A041FF4937CQ33193752-6FC58203-88C5-4A97-BA14-42F7DDB6E406Q34061712-DD0B2667-D2C5-4A43-94BC-251AC491DE50Q34334123-C4FE8711-C81B-44B0-B5BD-8931142BC278Q34410995-58371784-3F8D-4767-9918-DA190D9BD8C8Q34628368-8F608615-8E41-4A94-8B86-91752A32CCB2Q35073809-6C11D532-C7FF-41F9-97E5-D9412A35BECEQ35097673-34248E8E-2F7B-4E2F-BF82-BA2BDF7242FDQ36703665-259A9C85-D0FA-416E-A522-68292DB81A18Q36706202-F3491F3B-5716-45FB-A4F8-AE80AA85CE87Q38234729-46CA5CA7-0548-4C0A-A503-1F2179AA0E72Q39440964-6F374F19-8F31-40F2-BC0E-C76B6DEDDAF5Q40741573-F72409C8-03F4-4798-95A1-1EEB96F40568Q42002999-8170D55D-AAA6-4CD4-AEB5-99C513C6F5FAQ42828870-E95C6C87-B831-4CE4-BBBE-8B0727C07003Q43943116-59BA347F-34FB-435C-88F7-6284A9F0F1B0Q44333612-600D4CFB-117E-4795-8F6C-2A1C61A74CB5Q44918734-AA57E26E-4419-4D90-8914-FC300C49406BQ45768826-3B3256CA-8EF2-464C-888E-5DC1E6EBEE32Q45841881-4A18352D-45ED-4B72-8761-0017091739A6Q45851145-E18FED8F-070A-44BA-8354-754D32361DEBQ47603766-D2BA1527-8291-4069-9E83-071C7E593CE4Q51121551-DFE7D69D-B519-4322-A44A-0B4F09085BBFQ52315473-7E3DB871-32D6-4A41-897F-76EF76312036Q52717242-BAB42E6E-5A68-42E5-A020-BB70410BA740Q52916126-5B729931-4A83-471B-8037-5C18CDADF90CQ54933466-A3AEE82B-64DB-4534-B330-BB0C58E1E58FQ62669308-40A4075A-E733-4E13-BE35-25E07B642388Q62669326-58A6C578-181A-4D94-BF3B-99862D2A03C1Q62669339-DE1E13D3-6471-4D37-BBCE-01D8AB8D81E3Q62669344-CF52636E-BA8D-48DC-B1A5-9484B6761947Q89576485-E38209AC-82A5-4ED3-AF56-28F71EBDEAEEQ91599301-676B49D8-3F94-417D-A1F5-5AF9FEC9B454
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alessandra Agresti
@ast
Alessandra Agresti
@en
Alessandra Agresti
@es
Alessandra Agresti
@nl
type
label
Alessandra Agresti
@ast
Alessandra Agresti
@en
Alessandra Agresti
@es
Alessandra Agresti
@nl
prefLabel
Alessandra Agresti
@ast
Alessandra Agresti
@en
Alessandra Agresti
@es
Alessandra Agresti
@nl
P1053
K-5228-2016
P106
P21
P31
P3829
P3835
alessandra-agresti2
P496
0000-0001-5006-9506