about
Who Regulates Whom? An Overview of RNA Granules and Viral InfectionsUnderstanding Spatial Genome Organization: Methods and InsightsReaders of poly(ADP-ribose): designed to be fit for purposeLong non-coding RNAs coordinate cellular responses to stressSingle-molecule fluorescence in situ hybridization: quantitative imaging of single RNA moleculesResetting a functional G1 nucleus after mitosisSR proteins collaborate with 7SK and promoter-associated nascent RNA to release paused polymeraseNucleolus-tethering system (NoTS) reveals that assembly of photobodies follows a self-organization modelDicing bodiesDistinct self-interaction domains promote Multi Sex Combs accumulation in and formation of the Drosophila histone locus body.Interplay between the alpharetroviral Gag protein and SR proteins SF2 and SC35 in the nucleus.Antioxidant enzymes reduce DNA damage and early activation of valvular interstitial cells in aortic valve sclerosis.Biogenesis and function of nuclear bodies.Functional organization and dynamics of the cell nucleusThe role of nuclear bodies in gene expression and disease.On the road with WRAP53β: guardian of Cajal bodies and genome integrityRegulation of nucleolus assembly by non-coding RNA polymerase II transcriptsNucleolus-tethering system (NoTS)Functional ultrastructure of the plant nucleolus.Long noncoding RNAs: an emerging link between gene regulation and nuclear organizationA conserved interaction that is essential for the biogenesis of histone locus bodies.Nuclear domain 10 of the viral aspect.Drosophila histone locus bodies form by hierarchical recruitment of componentsNon-coding RNA: a new frontier in regulatory biology.Long-Range Chromatin InteractionsUnravelling global genome organization by 3C-seq.Adenovirus E4-ORF3 Targets PIAS3 and Together with E1B-55K Remodels SUMO Interactions in the Nucleus and at Virus Genome Replication Domains.Nuclear mechanics in cancerCrowding effects on the formation and maintenance of nuclear bodies: insights from molecular-dynamics simulations of simple spherical model particles.Construction of synthetic nucleoli and what it tells us about propagation of sub-nuclear domains through cell division.Principles of protein targeting to the nucleolusSRSF1 regulates the assembly of pre-mRNA processing factors in nuclear speckles.Reversible Nuclear-Lipid-Droplet Morphology Induced by Oleic Acid: A Link to Cellular-Lipid Metabolism.Transcription factoriesModular organization of the mammalian Golgi apparatusNuclear domain 10-associated proteins recognize and segregate intranuclear DNA/protein complexes to negate gene expressionCajal bodies are linked to genome conformationA non-catalytic role for inositol 1,3,4,5,6-pentakisphosphate 2-kinase in the synthesis of ribosomal RNA.The histone demethylase jumonji coordinates cellular senescence including secretion of neural stem cell-attracting cytokinesLong noncoding RNAs: cellular address codes in development and disease.
P2860
Q26700102-9C043EEF-FBE7-457E-8969-09790DC34F28Q26766143-8E95A2B1-3AA5-43AA-8DBC-5BE8A5A16006Q26775561-552E18BF-537A-4255-B220-1EBBC7B56069Q26866086-58BCF417-B5C3-4A6B-8032-431603092AF3Q27008906-685AD187-562D-4C9F-82C8-3349B37EF390Q28073391-C594E7E4-8498-4132-8DAC-2A86DE93FBB8Q28512917-DE77513A-53FC-4097-B839-F5970B642FEBQ28660235-ABADE9CF-AF15-464E-AA43-54F75D67EF2DQ28740333-35209029-FBA7-4288-A1DC-BF1BB2DA48A4Q30638825-D686EB22-BE6D-4EDF-A6FD-805C5FABDE49Q30663968-62A7985B-FDA7-495A-8E19-CEE41E936280Q33840688-A764DA0A-26BC-4670-8BFC-DF511FD4FC2EQ34027349-FAEBE495-9669-41BB-89E8-91D0C2BE5E51Q34034313-DDC661D7-7D35-4BD3-B62C-880A42F68F42Q34038183-DDF9E5C8-140D-4793-A872-E06193558B37Q34043691-709190FE-83D6-4AD6-B3F7-65502376BE9FQ34047157-D67648FC-5C81-4AC4-8FC6-55CB04266CEDQ34122726-05A3796C-9F95-4F24-840D-A0C78E13FD66Q34403421-25622A5F-5241-4086-A023-312667C7FE67Q34626174-2D2A53C2-F4B2-4841-B327-2EB1D22F04E5Q34634110-06472E4C-6FD5-4FEE-B453-F5BC3D27819BQ35047491-90E89989-7B06-4FF0-9C42-E595DCD55DEFQ35196079-F7284F9B-98B6-4533-A707-B335EA138C41Q35218913-F6B70BF4-75E9-4FEC-810A-CB3AE6969FDDQ35796431-92E792B2-4F3A-4992-994A-D3E37C16412EQ35994590-B1B66742-7CD5-4CF2-9DD6-9268507EDF6FQ36086246-840AB0E8-FC47-4EBD-99C7-D72407782099Q36116300-598485A6-DF91-498F-B61A-96249074B5F6Q36150774-BC42F0A0-3334-433F-8821-958DF02DB489Q36186824-C7B8C25D-F16A-4479-9E6C-D710CAA5177EQ36191298-1F6799BB-EF71-48EC-A623-6D519AAF6390Q36234515-EC8BB539-4843-4061-A19F-9B26BCF02F31Q36261278-BB4B786B-21CD-428B-95F8-BDC8908FEA01Q36339745-66892EDD-A3A5-48CE-9D76-A412FFB46A80Q36389764-475B117D-C27D-40F2-9B88-2B9781A397F5Q36412174-6005B456-6D7E-4C07-9F84-281A63BC45ABQ36713390-309BE01E-6F1E-4CA5-8911-E50D5110F001Q36731431-1241A570-2132-4697-844E-693B8F6E4872Q36834235-EBF82AEC-75D0-47FD-A6C5-1974C3ED2233Q36837377-1D4AC681-8D95-4984-B0CB-F75EBC012993
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Biogenesis of nuclear bodies
@ast
Biogenesis of nuclear bodies
@en
Biogenesis of nuclear bodies
@nl
type
label
Biogenesis of nuclear bodies
@ast
Biogenesis of nuclear bodies
@en
Biogenesis of nuclear bodies
@nl
prefLabel
Biogenesis of nuclear bodies
@ast
Biogenesis of nuclear bodies
@en
Biogenesis of nuclear bodies
@nl
P2860
P1476
Biogenesis of nuclear bodies
@en
P2093
Miroslav Dundr
Tom Misteli
P2860
P304
P356
10.1101/CSHPERSPECT.A000711
P577
2010-11-10T00:00:00Z