Why do cells need an assembly machine for RNA-protein complexes?
about
Gemin8 is a novel component of the survival motor neuron complex and functions in small nuclear ribonucleoprotein assemblyGemin8 is required for the architecture and function of the survival motor neuron complexAccurate localization and relative quantification of arginine methylation using nanoflow liquid chromatography coupled to electron transfer dissociation and orbitrap mass spectrometryIdentification of ATPases pontin and reptin as telomerase components essential for holoenzyme assemblyhNaf1 is required for accumulation of human box H/ACA snoRNPs, scaRNPs, and telomeraseStructure of a key intermediate of the SMN complex reveals Gemin2's crucial function in snRNP assemblyA dynamic scaffold of pre-snoRNP factors facilitates human box C/D snoRNP assemblyOngoing U snRNP biogenesis is required for the integrity of Cajal bodiesZPR1 is essential for survival and is required for localization of the survival motor neurons (SMN) protein to Cajal bodies.Structural basis for m3G-cap-mediated nuclear import of spliceosomal UsnRNPs by snurportin1RNA splicing capability of live neuronal dendritesDetection of snRNP assembly intermediates in Cajal bodies by fluorescence resonance energy transferA stochastic view of spliceosome assembly and recycling in the nucleusRetrograde movement of tRNAs from the cytoplasm to the nucleus in Saccharomyces cerevisiaeprp8 mutations that cause human retinitis pigmentosa lead to a U5 snRNP maturation defect in yeastOrganization of Plasmodium falciparum spliceosomal core complex and role of arginine methylation in its assemblyGemin5 delivers snRNA precursors to the SMN complex for snRNP biogenesisIn vitro and in cellulo evidences for association of the survival of motor neuron complex with the fragile X mental retardation proteinGemin5-snRNA interaction reveals an RNA binding function for WD repeat domainsThe RNA-binding protein Gemin5 binds directly to the ribosome and regulates global translationUnrip is a component of SMN complexes active in snRNP assemblyA degron created by SMN2 exon 7 skipping is a principal contributor to spinal muscular atrophy severityTrichostatin A increases SMN expression and survival in a mouse model of spinal muscular atrophy.The SMN complex: an assembly machine for RNPsGenome-wide expression analysis of a spinal muscular atrophy model: towards discovery of new drug targetsDEAD-box protein-103 (DP103, Ddx20) is essential for early embryonic development and modulates ovarian morphology and functionRNA and diseaseSm/Lsm genes provide a glimpse into the early evolution of the spliceosomeA novel cell immunoassay to measure survival of motor neurons protein in blood cellsInactivation of the SMN complex by oxidative stressFunctional involvement of Tudor and dPRMT5 in the piRNA processing pathway in Drosophila germlines.Inflammation in ALS and SMA: sorting out the good from the evil.The survival of motor neurons protein determines the capacity for snRNP assembly: biochemical deficiency in spinal muscular atrophy.Analysis of spliceosomal proteins in Trypanosomatids reveals novel functions in mRNA processingSpecific sequence features, recognized by the SMN complex, identify snRNAs and determine their fate as snRNPsHuman RBM28 protein is a specific nucleolar component of the spliceosomal snRNPs.TDRD3, a novel Tudor domain-containing protein, localizes to cytoplasmic stress granulesHsp90 regulates the function of argonaute 2 and its recruitment to stress granules and P-bodies.Sm core variation in spliceosomal small nuclear ribonucleoproteins from Trypanosoma brucei.High-molecular-mass APOBEC3G complexes restrict Alu retrotransposition.
P2860
Q24301969-F936D260-0068-4C8F-8913-6FCF36629BCAQ24306053-90CBD574-2ABE-4686-8514-7B7F11F460CAQ24311057-B8C42772-F5F0-423B-8B79-8BD17B8242A2Q24313436-884FE26C-B736-4813-97C9-8A2E983F4B76Q24315010-53436DA1-77BD-478E-A04F-67AC15D78A8BQ24319038-643F0086-2EC9-4B78-B2E9-6B11CD0C64FEQ24320399-56102229-7334-47E8-BBE4-E33C0FB570EDQ24336921-0A0A3350-337A-413E-B891-78CF69F735ACQ24519083-85DB1E84-DC6C-45C1-A869-2698739CF858Q24530167-9D6434C6-A323-44A1-8741-D650E74C1691Q24537204-F426B31C-1E65-47E5-88FB-3D4C7905D105Q24678068-C57BED36-C32B-4BFC-9E54-883D4F1BCA26Q27339309-218EE244-1CCF-410F-877E-ED28DE0F19DEQ27932429-46E23C95-B173-4999-A219-28485B6CD4C1Q27935241-2C0EDF50-65DF-453C-B772-87EC9C31CDA4Q27973471-D66D3115-F4B1-4B88-A7EF-73567F640B86Q28115894-019DFB63-7846-4C8D-A685-9254B8508711Q28116617-9AD0C031-E4C2-4A46-8D5F-8178488DB892Q28117609-71AF5E30-B840-4B58-A8DC-2A6937406D6EQ28118858-6C41168A-F797-407D-B24C-9DF8BC26D77CQ28246568-1166AF08-274C-4620-83B2-A42C8F539925Q28274685-23DE0E2F-5522-4237-9E18-0E859B9895DBQ28289793-2E6F8193-F7EB-4157-B785-F03611A4F04AQ28294580-1DC1EA8C-36A4-4792-8A72-9E196B7DE286Q28471859-01D1B4BD-AB74-4AD4-9D5D-65AD139DE91EQ28585500-7DF73DD5-7D14-409B-9F43-4DBEDCCC048BQ29615183-0CBC6932-E298-40FF-A377-9C010C63FDD3Q29994423-52F69E62-C4D6-45DA-A125-092EC7EC1B39Q33232855-818136CA-AF64-45C2-BCBB-15907C0B798BQ33355418-18DCE166-BC3B-4B1E-98B4-5CAF42342C11Q33553009-8001E362-BFAB-4514-933C-204F82F8A5A1Q33664711-C1BF1A30-0C2A-45B8-91CD-9A11A1F585ACQ33862983-642B9493-AFE3-4D02-8512-6BBB73794E31Q34107359-7277CFBA-8548-4B0E-BE81-8989F3D9F14DQ34230914-7D96C530-26F1-4CB1-9426-CF14E91E5205Q34578738-F9312131-23D4-4B7C-97EB-6687F63711D5Q34796882-5ADE46FE-84CA-46E1-AFAD-FF814C48E4F0Q34982175-1BE99CD2-2C34-49E0-B0D1-A3E966C760FEQ35065814-ED140AF8-7CA4-416C-8B04-249A8FB1AC9EQ35070356-2C84C567-7198-4103-A79E-8A22DA10C632
P2860
Why do cells need an assembly machine for RNA-protein complexes?
description
2004 nî lūn-bûn
@nan
2004 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Why do cells need an assembly machine for RNA-protein complexes?
@ast
Why do cells need an assembly machine for RNA-protein complexes?
@en
Why do cells need an assembly machine for RNA-protein complexes?
@nl
type
label
Why do cells need an assembly machine for RNA-protein complexes?
@ast
Why do cells need an assembly machine for RNA-protein complexes?
@en
Why do cells need an assembly machine for RNA-protein complexes?
@nl
prefLabel
Why do cells need an assembly machine for RNA-protein complexes?
@ast
Why do cells need an assembly machine for RNA-protein complexes?
@en
Why do cells need an assembly machine for RNA-protein complexes?
@nl
P2093
P3181
P1476
Why do cells need an assembly machine for RNA-protein complexes?
@en
P2093
Gideon Dreyfuss
Jeongsik Yong
P304
P3181
P356
10.1016/J.TCB.2004.03.010
P407
P577
2004-05-01T00:00:00Z