Identification of GRY-RBP as an apolipoprotein B RNA-binding protein that interacts with both apobec-1 and apobec-1 complementation factor to modulate C to U editing
about
Identification of domains in apobec-1 complementation factor required for RNA binding and apolipoprotein-B mRNA editingHeterotrimeric GAIT complex drives transcript-selective translation inhibition in murine macrophagesThe apolipoprotein B mRNA editing complex performs a multifunctional cycle and suppresses nonsense-mediated decayA novel nuclear localization signal in the auxiliary domain of apobec-1 complementation factor regulates nucleocytoplasmic import and shuttlingTargeted deletion of the murine apobec-1 complementation factor (acf) gene results in embryonic lethalityRNA Editing-Systemic Relevance and Clue to Disease Mechanisms?Mutagenesis of apobec-1 complementation factor reveals distinct domains that modulate RNA binding, protein-protein interaction with apobec-1, and complementation of C to U RNA-editing activityNovel role for RNA-binding protein CUGBP2 in mammalian RNA editing. CUGBP2 modulates C to U editing of apolipoprotein B mRNA by interacting with apobec-1 and ACF, the apobec-1 complementation factorA DnaJ protein, apobec-1-binding protein-2, modulates apolipoprotein B mRNA editingARCD-1, an apobec-1-related cytidine deaminase, exerts a dominant negative effect on C to U RNA editingInvolvement of a chaperone regulator, Bcl2-associated athanogene-4, in apolipoprotein B mRNA editingTwo proteins essential for apolipoprotein B mRNA editing are expressed from a single gene through alternative splicingApoB mRNA editing is mediated by a coordinated modulation of multiple apoB mRNA editing enzyme componentsSmn, the spinal muscular atrophy-determining gene product, modulates axon growth and localization of beta-actin mRNA in growth cones of motoneuronsMetabolic regulation of APOBEC-1 complementation factor trafficking in mouse models of obesity and its positive correlation with the expression of ApoB protein in hepatocytesMapping the LINE1 ORF1 protein interactome reveals associated inhibitors of human retrotranspositionWHEP domains direct noncanonical function of glutamyl-Prolyl tRNA synthetase in translational control of gene expressionApobec-1 complementation factor modulates liver regeneration by post-transcriptional regulation of interleukin-6 mRNA stability.The RNA-editing enzyme APOBEC1 requires heterogeneous nuclear ribonucleoprotein Q isoform 6 for efficient interaction with interleukin-8 mRNA.NMR structure of the apoB mRNA stem-loop and its interaction with the C to U editing APOBEC1 complementary factor.The challenge of target sequence specificity in C-->U RNA editing.Control of translation and miRNA-dependent repression by a novel poly(A) binding protein, hnRNP-Q.APOBEC-1-mediated RNA editing.C-to-U RNA editing: mechanisms leading to genetic diversity.Poly(A) RNA-binding proteins and polyadenosine RNA: new members and novel functions.Negative regulation of RhoA translation and signaling by hnRNP-Q1 affects cellular morphogenesis.RIP1, a member of an Arabidopsis protein family, interacts with the protein RARE1 and broadly affects RNA editing.hnRNP Q regulates Cdc42-mediated neuronal morphogenesis.Functional requirements of AID's higher order structures and their interaction with RNA-binding proteinsDecreased expression of cholesterol 7alpha-hydroxylase and altered bile acid metabolism in Apobec-1-/- mice lead to increased gallstone susceptibility.Nervous translation, do you get the message? A review of mRNPs, mRNA-protein interactions and translational control within cells of the nervous system.Identification of novel alternative splice variants of APOBEC-1 complementation factor with different capacities to support apolipoprotein B mRNA editing.Flow-cytometric visualization of C>U mRNA editing reveals the dynamics of the process in live cells.Proteomic analysis of an imatinib-resistant K562 cell line highlights opposing roles of heat shock cognate 70 and heat shock 70 proteins in resistance.Biochemical and molecular characterization of two cytidine deaminases in the nematode Caenorhabditis elegans.Commitment of apolipoprotein B RNA to the splicing pathway regulates cytidine-to-uridine editing-site utilization.Natural variation in Arabidopsis leads to the identification of REME1, a pentatricopeptide repeat-DYW protein controlling the editing of mitochondrial transcripts.Re-editing the paradigm of Cytidine (C) to Uridine (U) RNA editing.Reconstitution of mRNA editing in yeast using a Gal4-apoB-Gal80 fusion transcript as the selectable marker.Analysis of reptilian APOBEC1 suggests that RNA editing may not be its ancestral function.
P2860
Q24292384-32AA08B1-86B3-4D56-8F54-FF33813BEDEFQ24300963-EA00A650-E9F0-4E1F-8F90-EE8A88C054B3Q24310868-4E5C2218-0173-4287-834A-AEFD8EA31170Q24313327-D82DAEAB-F7C5-4527-B1E6-7737BC22CAC4Q24529931-731F12E6-F4C3-444D-84B3-7F69476E9FA1Q28079613-6B61A70E-2367-40A4-94AD-678F702C6237Q28188677-0CF0A46F-62B1-4DEF-B82D-FEB1479C53EBQ28189260-9F0B2841-16E0-4802-9E4B-19A4FC408C35Q28190002-8952652B-5ACB-4D2A-B71C-1FB7CC80A5C4Q28204149-9644598A-6B5A-48AB-BADA-8758714E1268Q28209969-93449924-B1A9-4561-B96F-66A3A6B8F5D0Q28216838-9F5F5AAF-5A01-4671-9143-F71AF21F7DC0Q28258954-63A77679-7AEA-45B8-A0DC-69ADC2F74EADQ28576647-08B1ADDA-19C3-45B2-BD6D-CAFA3586315EQ28590303-F666BB0B-D9F6-437C-ABA8-0400FDE2EF2BQ28681448-3F05690C-C826-4FF3-AEE9-DCD188D8EFF4Q33642469-DB146F8E-45AF-490D-8B13-3CDCB2D79E87Q33911276-FC573A4F-4054-4014-92A0-CD5C2484AEFFQ34249218-CA40504F-1BF4-4497-82E7-5CB539BEE9BDQ34366223-C7539205-7E83-4D23-8414-BC199BC7E513Q34517899-F0D01A56-5477-4682-8245-710177E62167Q34734843-08F3F36A-BEED-4156-982F-6D982D5449B5Q34910421-09ECACA7-1F35-43AC-9158-CE5151BC8373Q35006728-74FE3406-7027-47C4-9421-6F7C8A06BD32Q35095113-CCAC08EF-F677-4C72-9679-137403E9BC65Q35891195-276C8980-2A24-4CD1-B941-3FC1FAA6F271Q36001257-003A89DE-E1CD-4E6B-8A4E-221F553C119CQ36023305-C9F97139-F162-4948-B802-411B63C55B4DQ36710679-04BA529E-B791-41D4-AAE5-142900D54170Q37285061-9738D4D3-630C-4F5D-8806-A67945B57BF0Q38222192-1028CEDA-1E62-420C-86AF-A35870F6496AQ38348889-3EC0D94C-8A1E-4F72-A4EF-2CE650CBECA7Q38895502-11E47BBC-67FA-4628-8794-A486DC6E20BCQ39970911-D0EB1D91-0A13-4CD3-A555-A3143DD40596Q41890160-0CC0CACB-9AAB-4F99-8A39-E97EE64993B3Q42060855-0F5CBCD5-60EE-4050-A4C5-9CF95D0AF046Q42848186-D9EAE9A9-20FD-4AA3-8C9D-4ED45290F38EQ43206599-B0C0CB4D-797C-4BF3-ADAF-9750C78BCC3AQ43971240-D6D83CB2-0990-4DE8-A6D6-FA4050CFE9B8Q44160661-8E4B4789-AE2A-40A5-A667-7B9BC45B2384
P2860
Identification of GRY-RBP as an apolipoprotein B RNA-binding protein that interacts with both apobec-1 and apobec-1 complementation factor to modulate C to U editing
description
2001 nî lūn-bûn
@nan
2001 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մարտին 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
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@ast
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@en
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@nl
type
label
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@ast
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@en
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@nl
prefLabel
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@ast
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@en
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@nl
P2093
P2860
P356
P1476
Identification of GRY-RBP as a ...... tor to modulate C to U editing
@en
P2093
J O Henderson
N Navaratnam
N O Davidson
P2860
P304
P356
10.1074/JBC.M006435200
P407
P577
2001-03-30T00:00:00Z