Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
about
Contribution of the Type II Chaperonin, TRiC/CCT, to OncogenesisCrystal Structures of Histone and p53 Methyltransferase SmyD2 Reveal a Conformational Flexibility of the Autoinhibitory C-Terminal DomainSequencing-based gene network analysis provides a core set of gene resource for understanding thermal adaptation in Zhikong scallop Chlamys farreri.Hsp90 directly modulates the spatial distribution of AF9/MLLT3 and affects target gene expression.Transposons, environmental changes, and heritable induced phenotypic variability.Stress, genomes, and evolutionIdentical functional organization of nonpolytene and polytene chromosomes in Drosophila melanogaster.Protein composition of interband regions in polytene and cell line chromosomes of Drosophila melanogaster.Nuclear matrix proteome analysis of Drosophila melanogasterHsp90 and environmental stress transform the adaptive value of natural genetic variation.Proteome of mouse oocytes at different developmental stages.The Arabidopsis thaliana SET-domain-containing protein ASHH1/SDG26 interacts with itself and with distinct histone lysine methyltransferases.Gyrase B inhibitor impairs HIV-1 replication by targeting Hsp90 and the capsid protein.Signal Transduction Pathways Leading to Heat Shock Transcription.De novo assembly and characterization of the global transcriptome for Rhyacionia leptotubula using Illumina paired-end sequencing.Epigenetics as an answer to Darwin's "special difficulty," Part 2: natural selection of metastable epialleles in honeybee castes.Interactions between Hsp90 and oncogenic viruses: implications for viral cancer therapeuticsHeat shock protein 90α (HSP90α), a substrate and chaperone of DNA-PK necessary for the apoptotic response.Epigenetics, nervous system tumors, and cancer stem cells.Chromatin-modifying agents for epigenetic reprogramming and endogenous neural stem cell-mediated repair in stroke.Hsp90 inhibitors and the reduction of anti-cancer drug resistance by non-genetic and genetic mechanisms.Novel therapeutic strategies in multiple myeloma: role of the heat shock protein inhibitors.Diversity in the origins of proteostasis networks--a driver for protein function in evolutionBeyond transposons: the epigenetic and somatic functions of the Piwi-piRNA mechanism.Hsp90, the concertmaster: tuning transcription.Mechanisms of Resistance to Hsp90 Inhibitor Drugs: A Complex Mosaic Emerges.Implications of Epigenetic Mechanisms and their Targets in Cerebral Ischemia Models.Heat shock protein 90 (Hsp90) selectively regulates the stability of KDM4B/JMJD2B histone demethylase.Hsp90 induces increased genomic instability toward DNA-damaging agents by tuning down RAD53 transcription.Regulated noise in the epigenetic landscape of development and disease.Interaction of SET domains with histones and nucleic acid structures in active chromatin.Expression of AeaHsp26 and AeaHsp83 in Aedes aegypti (Diptera: Culicidae) larvae and pupae in response to heat shock stress.Brassinosteroid nuclear signaling recruits HSP90 activity.Chromatin remodeling system, cancer stem-like attractors, and cellular reprogramming.Gene expression regulation by heat-shock proteins: the cardinal roles of HSF1 and Hsp90.Chromatin Immunoprecipitation (ChIP) of Heat Shock Protein 90 (Hsp90).HSP90, a capacitor of behavioral variation.Canalization by Selection of de Novo Induced Mutations.Hsp83/Hsp90 Physically Associates with Insulin Receptor to Promote Neural Stem Cell Reactivation
P2860
Q26777412-F086D723-031B-426C-86A4-3E92E84A0193Q27670728-7C9D363C-3623-4EA3-81BD-A99A3E0395C3Q30677973-4DC3AB0F-805B-40E6-8B59-10A47956C7ABQ33782481-BFFB536F-3C68-4CED-ABB3-6423A6D78D7AQ33935404-8070B9CC-3B31-4A41-A4B2-8B221989B918Q34022656-B0CF986D-C8E8-4E43-8724-03CEE43B4F25Q34055841-B36C1FE1-1159-4741-BC12-4FBE0E1455FFQ34077027-9F71D15F-6FAF-4AAE-A5FD-ADC010F216F3Q34122256-6BBEE4CA-1B79-465A-846D-7FFA4C93BFE8Q34157465-D527BB66-E157-4C6C-A1A4-3D388832F500Q34200160-E6510D0D-C23D-486E-A281-700C512193C6Q34205707-B4969E1C-1FDB-4A16-94CC-52F1F3471C7EQ34385711-E3D9E9A4-42A2-4685-BC2C-658104B470E7Q35047254-001D8F72-C8E7-4FC8-9DF0-B041142C0878Q35053884-ED30CA04-CF52-44C9-8522-C37116C1C355Q35115421-D5F47314-DF0E-4EBF-9EDD-8E86070E99E6Q35376259-0DD76350-1233-4002-A9C3-09DA1ACD3CF5Q36167620-027A90C1-7A2C-4CA2-BF91-E4F2CAC240F4Q37137442-FBBA2FF6-A461-4783-837F-533CD023886AQ37151715-5774DC58-75F0-4979-9AD5-3F735D5E76CAQ37277287-DE37C131-B698-4628-A6C8-1579E608E584Q37813152-7D59593C-B98A-4F01-8320-7C3CBF06006BQ38086763-456FBFC0-9F32-4385-9981-57F915D2DD65Q38086999-90B5ECC8-6601-47FB-87BB-57F4DC17974CQ38479151-1F25F6DD-2E33-475C-ADD1-6B66151ACA41Q38976702-11427EB9-58DD-4BC6-982D-67BD87444846Q39037754-7A48AF76-A868-457C-A616-4789BDA5796FQ39165739-9A924196-ADD2-4672-B028-6D3E1D6B433AQ40101213-E5D8515B-DEBA-4A90-BB39-9795B88C72AEQ41514448-49CA631D-4218-4DC9-84E2-35CC6A8DD6B5Q42182620-7CF29786-6815-4E8F-9FFB-F05723799D92Q42997233-05BCC3AD-D3B8-434F-B9AD-F3FF6321E38DQ45015767-4F34E82A-E54F-415E-828E-F00B8E595816Q45908913-AFB14468-DF8C-4A57-BEE9-0BB30F7216FEQ47259561-B805FADF-E583-4298-82B9-88C76178E54AQ47362576-32A5769A-CBCF-49D1-BB86-E1AE3D6BF32AQ47734561-0EC6CA7D-9FF5-4A38-9214-D5C3E6224D64Q53987291-50E081B3-D223-4B54-89E9-D8A78BC92446Q57292634-90215B8F-E4B7-4569-96EF-7CA60506186E
P2860
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 14 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@en
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@nl
type
label
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@en
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@nl
prefLabel
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@en
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@nl
P2093
P2860
P356
P1476
Trithorax requires Hsp90 for maintenance of active chromatin at sites of gene expression.
@en
P2093
Christian Beisel
Muhammad Tariq
Renato Paro
Ute Nussbaumer
Yujie Chen
P2860
P304
P356
10.1073/PNAS.0809669106
P407
P577
2009-01-14T00:00:00Z