Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
about
Localization of a putative transcriptional regulator (ATRX) at pericentromeric heterochromatin and the short arms of acrocentric chromosomesRecruitment of octamer transcription factors to DNA by glucocorticoid receptor.The yeast ubiquitin genes: a family of natural gene fusionsCompilation of transcription regulating proteinsIdentification of two factors required for transcription of the ovalbumin geneIn vivo interactions of RNA polymerase II with genes of Drosophila melanogasterCopia is transcriptionally responsive to environmental stressExonuclease III protection assay with FRET probe for detecting DNA-binding proteins2,3,7,8-Tetrachlorodibenzo-p-dioxin-inducible aryl hydrocarbon receptor-mediated change in CYP1A1 chromatin structure occurs independently of transcriptionImmunoglobulin J chain gene from the mouseHeat shock and the sorting of luminal ER proteins.Drosophila Sgs3 TATA: effects of point mutations on expression in vivo and protein binding in vitro with staged nuclear extracts.Accessibility of transcriptionally inactive genes is specifically reduced at homeoprotein-DNA binding sites in DrosophilaEvidence for a heat shock transcription factor-independent mechanism for heat shock induction of transcription in Saccharomyces cerevisiae.Analysis of HCF, the cellular cofactor of VP16, in herpes simplex virus-infected cells.Steroid hormone dependence of four DNase I-hypersensitive regions located within the 7000-bp 5'-flanking segment of the ovalbumin geneThe organisation of chromatin loops: characterization of a scaffold attachment site.Hormonally induced alterations of chromatin structure in the polyadenylation and transcription termination regions of the chicken ovalbumin geneMolecular characterization of mutant actin genes which induce heat-shock proteins in Drosophila flight musclesA comparison of in vivo and in vitro DNA-binding specificities suggests a new model for homeoprotein DNA binding in Drosophila embryos.An upstream transcription factor, USF (MLTF), facilitates the formation of preinitiation complexes during in vitro chromatin assembly.Electron microscopic visualization of protein-DNA interactions at the estrogen responsive element and in the first intron of the Xenopus laevis vitellogenin gene.The regulatory domain of a larval serum protein gene in Drosophila melanogaster.Xenopus hsp 70 genes are constitutively expressed in injected oocytes.Characterization of VP22 in herpes simplex virus-infected cells.Regulation of sugar and ethanol metabolism in Saccharomyces cerevisiae.Stably maintained microdomain of localized unrestrained supercoiling at a Drosophila heat shock gene locus.A critical role for heat shock transcription factor in establishing a nucleosome-free region over the TATA-initiation site of the yeast HSP82 heat shock gene.Drosophila Paf1 modulates chromatin structure at actively transcribed genes.Artificial combination of two cis-regulatory elements generates a unique pattern of expression in transgenic plants.Transcriptional activation and DNase I hypersensitive sites are associated with selective expression of the gastrin-releasing peptide gene.Constitutive and anaerobically induced DNase-I-hypersensitive sites in the 5' region of the maize Adh1 gene.Roles of cis-acting elements and chromatin structure in Drosophila alcohol dehydrogenase gene expression.Remarkable site specificity of local transposition into the Hsp70 promoter of Drosophila melanogasterChromatin structure of the promoter region of the human c-K-ras geneIn vivo protein binding sites and nuclease hypersensitivity in the promoter region of a cell cycle regulated human H3 histone geneIdentification of a novel site specific endonuclease produced by Mycoplasma fermentans: discovery while characterizing DNA binding proteins in T lymphocyte cell lines.Structure of a mouse erythroid 5-aminolevulinate synthase gene and mapping of erythroid-specific DNAse I hypersensitive sites.A comparison between mammalian and avian fast skeletal muscle alkali myosin light chain genes: regulatory implicationsNuclease-hypersensitive sites in chromatin of the estrogen-inducible apoVLDL II gene of chicken.
P2860
Q22010822-E36B5C0D-0628-44D8-8E30-6B674EA55F91Q24522497-884E2820-6C0D-4CA3-AE20-B2E8536B7CE0Q24555832-22433FEC-F5A5-4596-86FE-FE31C3995D91Q24599406-55E62EA8-4E1A-4FEB-9561-E4B20E30B2F8Q24616594-0E5620A1-E7E4-41E6-9695-395DA47FA562Q24617567-C248EA4C-7873-4B54-9811-AB18F3DA9A77Q24627038-FFFAEB29-0D0F-46B8-933C-F07A414D2333Q24802809-55E67507-4132-4157-873C-A9385B45A965Q28354266-BFADEC15-B4D9-4C0F-91F6-DEF063211F6CQ28587553-02EA8E36-3630-43E3-93AC-8424862F493FQ33583300-3E6442A5-ED78-4A41-A45D-E5D698E86D7EQ33586084-1C946B01-4EF9-4858-8C7D-E121BA1E05E8Q33616371-9EDACE5A-F098-41FC-83B1-E809348F6E06Q33758713-56255E3D-5087-4DB6-BD42-FCF9E5841844Q33794386-AAC206BF-5EFB-4399-BBB2-64425D5225ACQ33879360-7E5D86D9-62C4-43CE-A808-71E8C4247576Q33879560-916E4B1E-83DA-4242-8A45-1F761B669455Q33879570-048614F3-691B-46E1-9692-C0FAB1E88129Q33879579-C4B98A5B-FA2D-420A-A7F4-CAD15F7B6A15Q33890600-01B4CE3D-D783-41D8-809C-F75FEDB22613Q33919409-3C74F58F-B4DF-405A-9C23-1107BE605669Q33929196-69BBDB49-CD34-4B1A-A029-321BAA5AF386Q33932210-F6732391-1A23-4EC1-B6BD-2E3E3FF0A9F6Q33940018-206962E0-F3CB-40AC-A922-334F5080FC70Q33984250-FF5B47F5-7865-4E9E-9964-11C52871ECA1Q34027490-A326A23F-0A7A-4BBD-89E5-870DA1FD6F36Q34045968-E49C92BC-FE8E-42A9-BF10-17956ED688E2Q34061479-9D3043FA-25A0-4057-A249-F77FFB9FF9A7Q34233474-76077FE0-6D9F-488F-8F4F-F84BB8525BA7Q34377989-0897DF5C-0CEF-4E15-8D5D-C906478636C4Q34561684-80194FE4-9D4E-4D29-9E51-FB4522DC27F0Q34593513-64642B45-F944-4D99-A0A6-5D523CEB0A1AQ34712551-D3486E2C-C8E4-46D4-9872-97300701EB3DQ34895311-A7139001-D404-4C54-8C51-2ACB8E8B0C47Q35052317-46F8DF23-949F-4D3F-B6AE-A3E998F47E24Q35221092-21BF46BB-5FCC-4C95-866B-2AFACF723A00Q35225992-C0AF662A-7691-4E05-B0E3-C932F78564FFQ35250044-BF2D3358-145D-49F6-88A3-1987DA819236Q35555751-316EC1C4-F79A-40F6-8715-9EA85575827AQ35556924-BCA38249-3762-46B9-B9E3-E3B6580276EE
P2860
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
description
1984 nî lūn-bûn
@nan
1984年の論文
@ja
1984年学术文章
@wuu
1984年学术文章
@zh
1984年学术文章
@zh-cn
1984年学术文章
@zh-hans
1984年学术文章
@zh-my
1984年学术文章
@zh-sg
1984年學術文章
@yue
1984年學術文章
@zh-hant
name
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@en
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@nl
type
label
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@en
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@nl
prefLabel
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@en
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@nl
P356
P1433
P1476
Two protein-binding sites in chromatin implicated in the activation of heat-shock genes.
@en
P2888
P304
P356
10.1038/309229A0
P407
P577
1984-05-01T00:00:00Z
P6179
1051900017