Genome-wide assessment of AU-rich elements by the AREScore algorithm.
about
Cytoplasmic polyadenylation in mammalian oocyte maturationDeletion of AU-rich elements within the Bcl2 3'UTR reduces protein expression and B cell survival in vivoGenome-wide analysis of histone modifications in human endometrial stromal cells.Translational regulation of specific mRNAs controls feedback inhibition and survival during macrophage activationThe contribution of RNA decay quantitative trait loci to inter-individual variation in steady-state gene expression levels.The Drosophila Tis11 protein and its effects on mRNA expression in flies.IL-17 attenuates degradation of ARE-mRNAs by changing the cooperation between AU-binding proteins and microRNA16.Insights into the miRNA regulations in human disease genes.mTOR regulates MAPKAPK2 translation to control the senescence-associated secretory phenotype.The interplay of HuR and miR-3134 in regulation of AU rich transcriptome.3' UTR-isoform choice has limited influence on the stability and translational efficiency of most mRNAs in mouse fibroblastsMultiple functions of tristetraprolin/TIS11 RNA-binding proteins in the regulation of mRNA biogenesis and degradation.Genome-wide analysis of TIAR RNA ligands in mouse macrophages before and after LPS stimulation.Rapid proteasomal degradation of posttranscriptional regulators of the TIS11/tristetraprolin family is induced by an intrinsically unstructured region independently of ubiquitination.An Ancient Family of RNA-Binding Proteins: Still Important!A GC-rich sequence feature in the 3' UTR directs UPF1-dependent mRNA decay in mammalian cells.Tristetraprolin is a novel regulator of BDNFdTIS11 Protein-dependent polysomal deadenylation is the key step in AU-rich element-mediated mRNA decay in Drosophila cells.Tis11 mediated mRNA decay promotes the reacquisition of Drosophila intestinal stem cell quiescence.TORn about SASP regulation.ARED-Plus: an updated and expanded database of AU-rich element-containing mRNAs and pre-mRNAs.Regulation of Adult CNS Axonal Regeneration by the Post-transcriptional Regulator Cpeb1.The RNA-binding protein Tristetraprolin (TTP) is a critical negative regulator of the NLRP3 inflammasome.Integrative classification of human coding and noncoding genes through RNA metabolism profiles.Chromatin Modification and Global Transcriptional Silencing in the Oocyte Mediated by the mRNA Decay Activator ZFP36L2.ZFP36L2 is a cell cycle-regulated CCCH protein necessary for DNA lesion-induced S-phase arrest.Comprehensive Characterization of Alternative Polyadenylation in Human Cancer.Optimization of mRNA design for protein expression in the crustacean Daphnia magna.Antagonistic actions of two human Pan3 isoforms on global mRNA turnover.ARE-mediated decay controls gene expression and cellular metabolism upon oxygen variations.Short-lived AUF1 p42-binding mRNAs of RANKL and BCL6 have two distinct instability elements each
P2860
Q26776467-EC052A6C-9F5B-468E-A83E-6F49FDBAAA0EQ28543455-980163EC-F0BB-400A-B175-B958B880996CQ33631902-A522985A-4BE3-4251-B680-CADDD3210BE4Q33778581-F9009701-8D05-4C3A-BDA7-54CD97B2FB39Q34446672-54EB265E-325A-4931-A903-53B09AB3F9C3Q34737692-1835F581-EF06-4838-9E20-5766DBBF32A5Q35004498-6F41EAB7-56F7-463A-B2E9-F83985AA1EA5Q35443375-5674FCF7-067B-46E1-8DBC-54A05F5F46BCQ36110081-BCB5A3E8-0BB4-4ED9-846D-C370C37BA6F5Q37278893-C8CED38C-C04E-45AB-85B9-BCBF81845ABFQ37358020-FB2BA5E6-F72F-4D19-820D-DE40DF17DB0BQ38042546-8F296AEC-3C36-4A5F-A090-DAFA8BE2471EQ38784237-861455AE-FE22-4BF8-A070-EF1586A47D6DQ38954061-5AABD491-015B-4F23-A8F7-7C6B705B5FFFQ39092491-20FB9949-CD5C-488E-B7E0-C5F0827E2E54Q39111235-BAC94978-E5E2-4F85-844E-A7669BC8E983Q39119364-8A926737-DC49-4201-9487-694F23D9C990Q39288616-82D19EB2-9B95-4FC3-83F6-2051DB1C621EQ40236646-B8356D33-1B63-4942-B3D0-0FA7A0EF4E3FQ42910290-0A69F2DA-E122-46F6-9EA2-998152C457B5Q47097981-068E6F74-63DB-4507-A479-A3661396B55EQ47548086-3C251B3C-39B1-419B-9400-3FCE1CC831A6Q48114071-767A88E2-5491-4402-B15E-BF0D94978B7DQ48209582-4B3D7EF7-DD71-45E4-AC03-6C02DD7E15BFQ48501905-7061F258-C329-43C6-95AF-7CB6E0A90D87Q49961554-79951520-DCD2-4DCC-A6A1-94BF82BB4A83Q50140656-254E6A63-3B29-455E-96FE-CA54810F0A37Q50478089-F1FB3CE4-B615-452F-B46F-606D444BE443Q50970340-E3A2EDD8-1AD7-4C2A-9104-95482A6427DBQ55238583-18C70986-6C1E-4D54-B2F2-2F028C4906E9Q59136833-8136784F-D5FA-4C5A-BB76-7F2F688B3706
P2860
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@ast
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@en
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@nl
type
label
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@ast
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@en
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@nl
prefLabel
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@ast
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@en
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@nl
P2093
P2860
P1433
P1476
Genome-wide assessment of AU-rich elements by the AREScore algorithm.
@en
P2093
Caroline C Friedel
Georg Stoecklin
Jochen Kreth
Johanna Schott
Kathrin Leppek
Milan Spasic
Sarah Hofmann
Sevim Ozgur
P2860
P304
P356
10.1371/JOURNAL.PGEN.1002433
P577
2012-01-05T00:00:00Z