An RNA recognition motif (RRM) is required for the localization of PTB-associated splicing factor (PSF) to subnuclear speckles
about
P54nrb forms a heterodimer with PSP1 that localizes to paraspeckles in an RNA-dependent manner.Nuclear relocalization of the pre-mRNA splicing factor PSF during apoptosis involves hyperphosphorylation, masking of antigenic epitopes, and changes in protein interactionsSplicing factor hSlu7 contains a unique functional domain required to retain the protein within the nucleusRegulation of alternative splicing by SRrp86 and its interacting proteinsHigher order arrangement of the eukaryotic nuclear bodies.Splicing and transcription-associated proteins PSF and p54nrb/nonO bind to the RNA polymerase II CTDPSF and p54nrb bind a conserved stem in U5 snRNAThe spatial targeting and nuclear matrix binding domains of SRm160Hacking RNA: Hakai promotes tumorigenesis by enhancing the RNA-binding function of PSFMENepsilon/beta noncoding RNAs are essential for structural integrity of nuclear paraspecklesIdentification of androgen-coregulated protein networks from the microsomes of human prostate cancer cellsThe hepatitis B virus PRE contains a splicing regulatory element.Genome-wide analysis of histidine repeats reveals their role in the localization of human proteins to the nuclear speckles compartmentActivation function-1 domain of androgen receptor contributes to the interaction between subnuclear splicing factor compartment and nuclear receptor compartment. Identification of the p102 U5 small nuclear ribonucleoprotein particle-binding proteinThe LIM protein FHL3 binds basic Krüppel-like factor/Krüppel-like factor 3 and its co-repressor C-terminal-binding protein 2PSF and p54(nrb)/NonO--multi-functional nuclear proteinsHIV-1 Tat protein-mediated transactivation of the HIV-1 long terminal repeat promoter is potentiated by a novel nuclear Tat-interacting protein of 110 kDa, Tip110Transcriptional activity of the murine retinol-binding protein gene is regulated by a multiprotein complex containing HMGA1, p54 nrb/NonO, protein-associated splicing factor (PSF) and steroidogenic factor 1 (SF1)/liver receptor homologue 1 (LRH-1)APRICOT: an integrated computational pipeline for the sequence-based identification and characterization of RNA-binding proteinsAutosomal-dominant distal myopathy associated with a recurrent missense mutation in the gene encoding the nuclear matrix protein, matrin 3Dynamic sorting of nuclear components into distinct nucleolar caps during transcriptional inhibitionNovel roles of hakai in cell proliferation and oncogenesisInterplay between the alpharetroviral Gag protein and SR proteins SF2 and SC35 in the nucleus.NPM/ALK binds and phosphorylates the RNA/DNA-binding protein PSF in anaplastic large-cell lymphoma.The Wilms tumour suppressor protein WT1 (+KTS isoform) binds alpha-actinin 1 mRNA via its zinc-finger domain.Analyses of in vivo interaction and mobility of two spliceosomal proteins using FRAP and BiFC.Paraspeckle protein p54nrb links Sox9-mediated transcription with RNA processing during chondrogenesis in mice.Regulation of the subcellular distribution of key cellular RNA-processing factors during permissive human cytomegalovirus infectionRole for PSF in mediating transcriptional activator-dependent stimulation of pre-mRNA processing in vivo.Paraspeckles.The splicing factor proline-glutamine rich (SFPQ/PSF) is involved in influenza virus transcription.Paxillin associates with poly(A)-binding protein 1 at the dense endoplasmic reticulum and the leading edge of migrating cells.Mild heat and proteotoxic stress promote unique subcellular trafficking and nucleolar accumulation of RGS6 and other RGS proteins. Role of the RGS domain in stress-induced trafficking of RGS proteins.Association of the breast cancer protein MLN51 with the exon junction complex via its speckle localizer and RNA binding module.The four and a half LIM family members are novel interactants of the human T-cell leukemia virus type 1 Tax oncoproteinSpecific interaction with the nuclear transporter importin α2 can modulate paraspeckle protein 1 delivery to nuclear paraspeckles.PSF: nuclear busy-body or nuclear facilitator?PSF acts through the human immunodeficiency virus type 1 mRNA instability elements to regulate virus expressionQuantitative analysis of the detergent-insoluble brain proteome in frontotemporal lobar degeneration using SILAC internal standardsSizing up long non-coding RNAs: do lncRNAs have secondary and tertiary structure?
P2860
Q22066089-16C6834C-BC07-4408-B640-851029966ADAQ24291592-9AB5B15F-91F1-4643-A5FC-F77BA937ACD2Q24295147-ABA7836F-1A24-440D-81C0-90FE691565DFQ24297833-67316D27-84D2-4050-B682-3149F29CDECBQ24536097-A6D94032-265B-4FF1-A288-7562BE8D46F1Q24540125-3AD6A7FA-1DFD-4787-AE04-2ACA6B0C2EA0Q24540146-EC8C89FF-E6C3-4E04-9EB8-DE628164A201Q24554496-8E9DC401-9F56-4974-954C-50A8DFE3C6D5Q24645018-E8BC992C-9079-4EFC-A03C-DAE6550B2ED7Q24646100-F18F2DAD-5C7F-437D-9910-15D3A52CA8C0Q24806811-4AC7F217-99E6-493C-A895-3103AC045641Q25255938-B49B03CA-7A71-484A-8FD5-081CBFA43D98Q27312679-C0956639-8219-44B1-80AE-88A9DC82CF1CQ28201872-67AE2D46-4C3E-4314-9BE7-B8F0C1F317AAQ28205922-B5536D05-B96A-4584-AD6A-2C34D3CD44C5Q28213410-37973281-D792-4D7E-92E2-BF90175D9217Q28215081-D0C05E64-A17F-4BB6-A64F-782D4C279B86Q28510034-33B28A5E-BF39-466C-AE91-CC5AD946BC21Q28871814-B17F6771-56EE-4740-BB16-27D1CAA4B38FQ30438210-15E5C724-BD2F-4089-8A4F-8D87CB968DCFQ30448378-E6BA7522-CCE9-485F-8FB6-FE1AC498B07EQ30489228-12C4604F-1FF8-41B8-8EC4-5F66583B55C1Q30663968-857A35D9-0BCC-4F6C-854D-7CC5DBF570FDQ30831857-DA1D7E1F-C002-4750-AB67-B25B5A6D237CQ33266516-3042DAB1-03B0-46B9-A639-0F7D2754C205Q33328476-C5F49F5B-52FE-4790-85A8-A5E65BC9D32DQ33357359-7634430B-4CBB-4924-B094-02A624BE9369Q33923193-93B726B0-0847-41A4-BB86-9188D42189ADQ33925205-E4A4F08B-3C52-4033-8810-1DAEA88A13F7Q33931966-98BB1B8E-16EE-4B79-9136-61D659665A1BQ34082693-710D2C41-A131-4F05-96B3-1BEB7A85EC89Q34101391-64C89193-09CA-4939-A9DA-AF1835B6BF58Q34199055-EE03C7B5-0855-49D2-8259-4DB8008C6B77Q34323382-48B8B7BF-314A-42D9-AA7B-AEA0531B8324Q34686753-72FEC572-118D-425E-ABD4-9853B776E9ABQ35390211-9537C8AE-D8E7-4855-B11E-00DBB456CE7BQ35772782-8B5DD4D5-4910-4959-8459-46826029A4CCQ35920650-989DC7FC-140E-4A5C-9A78-8B100E842402Q35975425-E693D2D6-3D7A-4038-A0F2-B429BF80183AQ36480547-D510B915-736F-49D7-8D43-26790286D075
P2860
An RNA recognition motif (RRM) is required for the localization of PTB-associated splicing factor (PSF) to subnuclear speckles
description
2001 nî lūn-bûn
@nan
2001 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@ast
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@en
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@nl
type
label
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@ast
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@en
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@nl
prefLabel
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@ast
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@en
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@nl
P356
P1476
An RNA recognition motif (RRM) ...... r (PSF) to subnuclear speckles
@en
P2093
P304
P356
10.1006/EXCR.2000.5097
P407
P577
2001-02-01T00:00:00Z