about
Multiple Export Mechanisms for mRNAsExaptation of Bornavirus-Like Nucleoprotein Elements in AfrotheriansAssociation of the yeast RNA-binding protein She2p with the tubular endoplasmic reticulum depends on membrane curvature.Ribosome profiling of mouse embryonic stem cells reveals the complexity and dynamics of mammalian proteomesMicroRNAs inhibit the translation of target mRNAs on the endoplasmic reticulum in Arabidopsis.Defining the specificity of cotranslationally acting chaperones by systematic analysis of mRNAs associated with ribosome-nascent chain complexes.Multifunctional roles for the protein translocation machinery in RNA anchoring to the endoplasmic reticulum.Kinetochore genes are required to fully activate secretory pathway expansion in S. cerevisiae under induced ER stress.Hypoxia-induced gene expression results from selective mRNA partitioning to the endoplasmic reticulum.Model Uracil-Rich RNAs and Membrane Protein mRNAs Interact Specifically with Cold Shock Proteins in Escherichia coliLocal slowdown of translation by nonoptimal codons promotes nascent-chain recognition by SRP in vivo.Spatial regulation of translation through RNA localization.Implication of the SMN complex in the biogenesis and steady state level of the signal recognition particle.Translation- and SRP-independent mRNA targeting to the endoplasmic reticulum in the yeast Saccharomyces cerevisiaeMolecular determinants of the axonal mRNA transcriptome.Control of cytoplasmic mRNA localization.All roads lead to Rome (but some may be harder to travel): SRP-independent translocation into the endoplasmic reticulum.The Sec translocon mediated protein transport in prokaryotes and eukaryotes.Control of cell migration through mRNA localization and local translation.Here, there, everywhere. mRNA localization in budding yeastOf social molecules: The interactive assembly of ASH1 mRNA-transport complexes in yeast.Translation in the mammalian oocyte in space and time.Local translation in neuronal compartments: how local is local?Control of tissue size and development by a regulatory element in the yorkie 3'UTR.The RNA-binding protein Rrm4 is essential for efficient secretion of endochitinase Cts1A FYVE zinc finger domain protein specifically links mRNA transport to endosome trafficking.Artificial DnaJ Protein for protein production and conformational diseases.Peripheral nerve axons contain machinery for co-translational secretion of axonally-generated proteins.Signal sequence-independent SRP-SR complex formation at the membrane suggests an alternative targeting pathway within the SRP cycle.An RNA-zipcode-independent mechanism that localizes Dia1 mRNA to the perinuclear ER through interactions between Dia1 nascent peptide and Rho-GTP.Localization of mRNAs coding for mitochondrial proteins in the yeast Saccharomyces cerevisiae.Intercellular mRNA trafficking via membrane nanotube-like extensions in mammalian cells.Localization of a subset of yeast mRNAs depends on inheritance of endoplasmic reticulum.Selective sets of mRNAs localize to extracellular paramural bodies in a rice glup6 mutant
P2860
Q26783595-D381EA44-E187-4225-9664-47E82B21A167Q27312400-117EFE53-A43B-43B4-ADD2-3466759BFF1BQ27935573-9D767BC2-4F25-444A-88DC-449215A637DCQ29617505-80531C2A-AE07-4E6A-BC36-25348EC648F9Q33355753-3E4A1FB1-D5DA-4296-9376-62F52C461F1EQ33963685-4B265FAB-343B-4FF6-AFCE-7FADC6E811EAQ34170841-C6F487E1-80AB-4677-A0DB-E6AB6CFF25C7Q35145403-91FA34B9-5E3A-4042-A7D3-B98F4FE7BC82Q35237075-EAB51002-E6F5-4977-AA04-64C3942809ACQ35726149-6B0B7824-7EA2-4ECF-85C9-486A455A438AQ35809145-F7C6FECD-BEEF-4EA6-9143-9DB2BF9A223BQ36142119-BAF43EF1-3140-404B-9F01-CF4E1E8ABA9FQ36559321-9166DE1A-BCCB-408F-8D6F-988ADF96A879Q37200674-8296FECB-5DB7-42DE-B008-FB412A8F5B73Q37600828-726318E4-89C2-48EC-AD66-6E625308923FQ37943793-3071D061-328E-449D-956D-280470E169F2Q38093231-F40F777D-0906-45D4-A3B7-63793DB408FEQ38206834-04217813-A237-43A6-9726-6CB92BBB94F3Q38255146-A17F71A3-398C-4BBB-9AAB-38A5040532C0Q38284523-2E3F88A0-59F4-46CD-B7C3-CA187E281D06Q38284527-0C587842-BA1A-4570-9BB2-4BD52B3B83BEQ38580930-3DC8F372-400C-445C-ABDA-3436063320CEQ38731026-74D40C95-5BAF-4041-9751-5336396D7A31Q38841345-71596867-21CF-42DE-AD2C-3C94DE7CC4E8Q39767203-81EA17A5-8094-42BE-9A2A-FAFD798E9A86Q41222824-DC05F056-FFC0-402C-894E-2A888CDDC2BAQ41446947-D2B94D85-0876-41F8-ACC4-70C090586323Q41453598-12414C4B-8E6F-4B7B-B43C-97C48977BE68Q42277688-6C4D763C-DE8D-4257-BCEA-553C9099ABBFQ42586249-50D75C9F-D796-4702-BC34-16FF85654688Q42861994-917969AE-69A2-492C-AB57-455ED79CB015Q45816902-BD5EA38B-EAD4-4C17-8D05-410110468F78Q53144188-1A619E49-F3F6-47C2-840A-CF499AC7357CQ58791825-C9DEA56E-C40B-45FD-B3FE-4BC6DFB5280A
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 March 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Addressing mRNAs to the ER: cis sequences act up!
@en
Addressing mRNAs to the ER: cis sequences act up!
@nl
type
label
Addressing mRNAs to the ER: cis sequences act up!
@en
Addressing mRNAs to the ER: cis sequences act up!
@nl
prefLabel
Addressing mRNAs to the ER: cis sequences act up!
@en
Addressing mRNAs to the ER: cis sequences act up!
@nl
P1476
Addressing mRNAs to the ER: cis sequences act up!
@en
P2093
Jeffrey E Gerst
Judith Kraut-Cohen
P304
P356
10.1016/J.TIBS.2010.02.006
P577
2010-03-24T00:00:00Z