Repression of gene expression by unphosphorylated NF-kappaB p65 through epigenetic mechanisms.
about
Rule-based cell systems model of aging using feedback loop motifs mediated by stress responsesChromatin-bound IκBα regulates a subset of polycomb target genes in differentiation and cancerEpigenetic changes during disease progression in a murine model of human chronic lymphocytic leukemiaThe Regulation of NF-κB Subunits by PhosphorylationNF-κB, the first quarter-century: remarkable progress and outstanding questionsNF-κB regulation: lessons from structuresTranscriptional Activation of Inflammatory Genes: Mechanistic Insight into Selectivity and DiversityAnalysis of the RelA:CBP/p300 Interaction Reveals Its Involvement in NF-κB-Driven TranscriptionIkappaBeta, a nuclear IkappaB protein, positively regulates the NF-kappaB-mediated expression of proinflammatory cytokinesA role for NF-κB activity in skin hyperplasia and the development of keratoacanthomata in micePhosphorylation of RelA/p65 promotes DNMT-1 recruitment to chromatin and represses transcription of the tumor metastasis suppressor gene BRMS1.Two modes of transcriptional activation at native promoters by NF-kappaB p65Crosstalk in inflammation: the interplay of glucocorticoid receptor-based mechanisms and kinases and phosphatasesConstitutively active NF-kappaB triggers systemic TNFalpha-dependent inflammation and localized TNFalpha-independent inflammatory disease.Transcriptional regulation in the immune system: a status report.Selectivity of the NF-{kappa}B response.PKD2 and PKD3 promote prostate cancer cell invasion by modulating NF-κB- and HDAC1-mediated expression and activation of uPADifferential chemosensitization of P-glycoprotein overexpressing K562/Adr cells by withaferin A and Siamois polyphenolsThe rate of NF-κB nuclear translocation is regulated by PKA and A kinase interacting protein 1.Specification of the NF-kappaB transcriptional response by p65 phosphorylation and TNF-induced nuclear translocation of IKK epsilon.Regulation of the NF-κB-Mediated Transcription of Inflammatory Genes.A vaccinia virus deletion mutant reveals the presence of additional inhibitors of NF-kappaB.Cyclin-dependent kinase 6 phosphorylates NF-κB P65 at serine 536 and contributes to the regulation of inflammatory gene expression.The N terminus of orf virus-encoded protein 002 inhibits acetylation of NF-κB p65 by preventing Ser(276) phosphorylation.Serine 105 phosphorylation of transcription factor GATA4 is necessary for stress-induced cardiac hypertrophy in vivo.Transcriptional regulation in the innate immune systemNF-κB in the liver--linking injury, fibrosis and hepatocellular carcinoma.NF-κB-dependent and -independent epigenetic modulation using the novel anti-cancer agent DMAPTNF-κB transcriptional activation by TNFα requires phospholipase C, extracellular signal-regulated kinase 2 and poly(ADP-ribose) polymerase-1Site-specific phosphorylation of the p65 protein subunit mediates selective gene expression by differential NF-κB and RNA polymerase II promoter recruitmentA RelA(p65) Thr505 phospho-site mutation reveals an important mechanism regulating NF-κB-dependent liver regeneration and cancer.A novel genetic strategy reveals unexpected roles of the Swi-Snf-like chromatin-remodeling BAF complex in thymocyte development.Regulation and function of nuclear IκBα in inflammation and cancerRegulation of Th17 cell differentiation and EAE induction by MAP3K NIK.Participation of mammalian target of rapamycin complex 1 in Toll-like receptor 2- and 4-induced neutrophil activation and acute lung injury.Hsp90 inhibition increases SOCS3 transcript and regulates migration and cell death in chronic lymphocytic leukemia.NF-κB as a target for oncogenic viruses.Negative regulation of NF-κB p65 activity by serine 536 phosphorylationSelective transcription in response to an inflammatory stimulus.Posttranslational modifications of NF-kappaB: another layer of regulation for NF-kappaB signaling pathway
P2860
Q21563497-2BD29A0D-8C86-4BB8-8F4A-D0DB72330CEAQ24307883-BB8C13A5-C657-4971-A771-7F7A91566C09Q24652017-6ED90006-7EC2-457A-9FD6-37CD8BD53E50Q26752951-25074E83-BD7D-47F7-8D4F-17DCE0677ED9Q26822516-37327BB0-74B7-44FC-88EC-712A1DBC9938Q26859097-DD7D1B5E-5FD3-4A06-9375-80A03C459201Q27026790-F82F124E-E7AA-4CE4-88E5-7B69B34FEB6DQ27679909-117D2E22-B432-45AC-A724-9C6534E76F2EQ28509093-EEBF36D4-B61E-4F7D-9C4D-B9865B0532F8Q28535413-2FE8F533-CD4B-4D47-A067-A93DA1881368Q30425294-10A0A306-0955-4156-8A3D-087E7BFC4816Q33425417-E90FE608-2A0D-4EF2-8B40-9D26EE5BE6A5Q33636430-9355B07A-0E13-4255-91E5-58E7B0063A26Q33659872-2EADF0A9-51A6-45FD-A37C-2D02F4E5B74AQ33699295-2AFFC6B0-5DC1-467F-8425-7D000F5FE134Q33752186-7E67655A-1CC2-4B30-9ECF-AD51EFA96201Q33818086-A7AAD36F-E686-4400-B1A9-04FD5C8BDF43Q33864180-50746820-365B-4A43-8EB0-8E0B5B535443Q33893742-01F32069-CD05-4FE6-92AD-38A7822F45DBQ34189309-A2BB30F9-50F7-4588-8D2C-DCE907199C8BQ34409102-0187F247-8797-48EB-B8F5-8890BDB433E8Q34485252-92C47BC2-09C4-4D9E-9D58-B4E46A6FA9B1Q34540259-CA3F40AD-2544-4524-8B1F-F8B8DA3EFF20Q34639421-145BE2E7-B4F1-47E3-83FA-3DFC69E52319Q35134084-9D105571-E86D-4407-9056-C57335984C36Q35783438-F672079F-00D3-4668-B505-82AD0EF0B5C3Q35808323-838C6B7D-033A-41AC-AA3A-A123AFEACE8FQ36347158-9CAC6235-A3A0-47AF-AACD-B22A6CC75F88Q36348582-52680AB2-949D-4029-A12C-4DAFACC4073DQ36508608-E4F14932-26D8-454A-B7CB-6CF862B92BBFQ36888168-C12C850E-1BFA-4FDE-A419-A90B21BEFD41Q36979923-20C4117B-8886-45BD-9ABD-A1E0076E718FQ37021647-733B50B2-A5E3-4D2C-AC83-ACC8A90BF53BQ37262374-2974CB28-1CAB-44FF-9716-0FDEAF66B38BQ37275496-3E847000-4ACE-4634-84FC-26C6A3FE60CCQ37317644-FAF0FBB1-BE78-44B4-8A76-EB371E9D5F67Q37374081-C164DBFD-B152-40C2-B379-D6D9E123B783Q37668699-BD239226-D655-46B6-A8D9-13ABC20E14A5Q37715321-5B443527-E495-442E-BB2E-C5CE07D88852Q37723806-2B5ECD78-CA36-4756-B0BF-1F7A62D56B5A
P2860
Repression of gene expression by unphosphorylated NF-kappaB p65 through epigenetic mechanisms.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Repression of gene expression ...... through epigenetic mechanisms.
@ast
Repression of gene expression ...... through epigenetic mechanisms.
@en
type
label
Repression of gene expression ...... through epigenetic mechanisms.
@ast
Repression of gene expression ...... through epigenetic mechanisms.
@en
prefLabel
Repression of gene expression ...... through epigenetic mechanisms.
@ast
Repression of gene expression ...... through epigenetic mechanisms.
@en
P2093
P2860
P356
P1433
P1476
Repression of gene expression ...... through epigenetic mechanisms
@en
P2093
Eijiro Jimi
Haihong Zhong
Sankar Ghosh
P2860
P304
P356
10.1101/GAD.1657408
P577
2008-04-11T00:00:00Z