Human X-box-binding protein 1 is required for the transcription of a subset of human class II major histocompatibility genes and forms a heterodimer with c-fos
about
The basic domain/leucine zipper protein hXBP-1 preferentially binds to and transactivates CRE-like sequences containing an ACGT coreA novel cysteine-rich sequence-specific DNA-binding protein interacts with the conserved X-box motif of the human major histocompatibility complex class II genes via a repeated Cys-His domain and functions as a transcriptional repressorActivation of hepatitis B virus S promoter by a cell type-restricted IRE1-dependent pathway induced by endoplasmic reticulum stressFunction of major histocompatibility complex class II promoters requires cooperative binding between factors RFX and NF-YTranscription of a subset of human class II major histocompatibility complex genes is regulated by a nucleoprotein complex that contains c-fos or an antigenically related proteinThe DNA-binding defect observed in major histocompatibility complex class II regulatory mutants concerns only one member of a family of complexes binding to the X boxes of class II promotersFunctional roles of the transcription factor Oct-2A and the high mobility group protein I/Y in HLA-DRA gene expressionAn essential role in liver development for transcription factor XBP-1Discovery of estrogen-responsive genes using an improved method which combines subtractive hybridization and PCR.Identification of c-fos-responsive elements downstream of TAR in the long terminal repeat of human immunodeficiency virus type-1.XBP-1 couples endoplasmic reticulum stress to augmented IFN-beta induction via a cis-acting enhancer in macrophages.Promoter-specific functions of CIITA and the MHC class II enhanceosome in transcriptional activationMapping of the interaction site of the defective transcription factor in the class II major histocompatibility complex mutant cell line clone-13 to the divergent X2-box.A factor that regulates the class II major histocompatibility complex gene DPA is a member of a subfamily of zinc finger proteins that includes a Drosophila developmental control proteinReversion of a transcriptionally defective MHC class II-negative human B-cell mutantViruses, autophagy genes, and Crohn's disease.Two B cell factors bind the HLA-DRA X box region and recognize different subsets of HLA class II promoters.X-box-binding protein 1 activates lytic Epstein-Barr virus gene expression in combination with protein kinase D.Mapping cis-acting defects in promoters of transcriptionally silent DQA2, DQB2, and DOB genes.Transcription factor B cell lineage-specific activator protein regulates the gene for human X-box binding protein 1An isotype-specific activator of major histocompatibility complex (MHC) class II genes that is independent of class II transactivatorAffinity enrichment and functional characterization of TRAX1, a novel transcription activator and X1-sequence-binding protein of HLA-DRAAnalysis of the differential host cell nuclear proteome induced by attenuated and virulent hemorrhagic arenavirus infectionTumor necrosis factor alpha response elements in the HLA-DRA promoter: identification of a tumor necrosis factor alpha-induced DNA-protein complex in astrocytes.CCAAT box binding protein NF-Y facilitates in vivo recruitment of upstream DNA binding transcription factors.Emerging roles for XBP1, a sUPeR transcription factor.An ATF/CREB binding motif is required for aberrant constitutive expression of the MHC class II DR alpha promoter and activation by SV40 T-antigen.SMILE silencing and PMA activation gene networks in HeLa cells: comparison with kidney transplantation gene networks.Reactive oxygen species increase HEPN1 expression via activation of the XBP1 transcription factor.Endoplasmic reticulum stress regulates the innate immunity critical transcription factor IRF3.Cytoplasmic IRE1alpha-mediated XBP1 mRNA splicing in the absence of nuclear processing and endoplasmic reticulum stress.Sequencing of an upstream region of the human HLA-DRA gene containing X' and Y' boxes.Identification and functional characterisation of the cellular activating transcription factor 43 (ATF-43) protein.B-cell factor 1 is required for optimal expression of the DRA promoter in B cells.Transcriptional regulation of the MHC II gene DRA in untransformed human thyrocytes.Ets-1 activates the DRA promoter in B cells.Repression of major histocompatibility complex IA expression by glucocorticoids: the glucocorticoid receptor inhibits the DNA binding of the X box DNA binding protein.In situ hybridization studies suggest a role for the basic region-leucine zipper protein hXBP-1 in exocrine gland and skeletal development during mouse embryogenesis.Gene expression profiling of periodontitis-affected gingival tissue by spatial transcriptomics.
P2860
Q24317656-8DA98DB4-F5A4-4751-83A9-528062AD5442Q24337320-0639EDCA-7806-4C98-8244-AF9AB068CB0EQ24529972-C5976E20-8AE8-486D-AF1D-D51B35533B30Q24562002-7AA568C1-13B9-44FE-BB25-E90AF9176A72Q24562007-8D066C4A-11BC-4378-AD04-FDFBB80071A8Q24601467-AA6A4507-927C-475E-8B33-89083B68C906Q24678821-4BF6E4DA-4508-479E-B44F-00861632DD76Q28593777-50C0613D-82D9-4AC7-909A-024C97D1DD70Q32052157-E948C714-0A13-404E-88D9-2669B2DE06DBQ33902078-E1F3F774-D03A-423D-9612-72A2B7A91732Q34047912-12F3CFE4-08E1-450D-AFF4-397DEA33E37AQ34086182-D2560548-36F6-4462-9056-F29AB8C8B13BQ34320901-473E8119-FAC8-449E-88DF-540CDF0A97ACQ34326323-87662911-7D60-434C-83D3-7AC7CB75EE18Q34964159-7DD1EB4A-14E7-4F8D-A1C4-40319B8804F2Q35261483-5BD12719-5778-49DD-8A23-7110571F6D58Q35793716-7AD99D72-3A90-4868-B15B-9D1186AC0F88Q35914523-2AD68575-7778-4C31-A5F7-21470F33A6F0Q36242877-59F40E08-D697-42A7-A301-B83150FE3C45Q36366273-B901AC78-C74C-485C-9E2B-D2646DF27003Q36377316-0559429E-DC70-4314-90F2-F4DB8B6504C6Q36566714-E01A0131-4C57-4ED8-9930-1A8018A47FA8Q37033404-A0351092-C14D-40B7-8822-57C3D0B296C6Q37326762-470B9188-6CEC-4340-8A78-5D6FD2EF04EFQ37635758-A9840C74-7838-4BAE-923A-13E9C6C9AA18Q37808199-BC713092-A8E3-4233-B64B-CDAC4D31EA3EQ38325888-E5D4BC9A-A1DB-4842-8789-467AE7A6D3ACQ38329831-F7219D8F-69BD-4DE5-B94A-33DCD3DC624FQ38935159-BAAD3EE2-F8D2-429F-8B40-DF4E74D04A84Q39267904-24C6CCB7-9C68-449A-8020-071D57C92D44Q40286509-22F8BAC0-3300-4BFA-969C-CD3413020934Q40394023-5834ECF7-BF74-43F2-A3F0-5807F5E50B8FQ40506507-AA5B473A-92C8-4F0C-8042-025737FE15EDQ40654813-3EA5035E-F20A-4DBE-8BFA-1CA6AD836F11Q40890181-B9777053-8FCB-4A0E-B508-DAA8C78EFA29Q41431603-66BC9D3E-98EE-487B-8A4D-3C4C3749C4FDQ41570362-7E3460A9-F93B-41CD-A91B-FC606BEA0204Q52224944-F9385075-2070-4604-B666-1745A03E6E19Q55347161-C8FBC460-B47A-45A5-81FF-E543037B5218
P2860
Human X-box-binding protein 1 is required for the transcription of a subset of human class II major histocompatibility genes and forms a heterodimer with c-fos
description
1991 nî lūn-bûn
@nan
1991 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@ast
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en-gb
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@nl
type
label
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@ast
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en-gb
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@nl
prefLabel
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@ast
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en-gb
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@nl
P2093
P2860
P356
P1476
Human X-box-binding protein 1 ...... forms a heterodimer with c-fos
@en
P2093
P2860
P304
P356
10.1073/PNAS.88.10.4309
P407
P577
1991-05-15T00:00:00Z