Structural imprints in vivo decode RNA regulatory mechanisms.
about
Recent advances in dynamic m6A RNA modificationRNA-Seq methods for transcriptome analysisUnderstanding the Functions of Long Non-Coding RNAs through Their Higher-Order StructuresRNA systems biology: uniting functional discoveries and structural tools to understand global roles of RNAsTargeting microRNAs for immunomodulationSimultaneous characterization of cellular RNA structure and function with in-cell SHAPE-SeqProgress and challenges for chemical probing of RNA structure inside living cellsEngineering Translation in Mammalian Cell Factories to Increase Protein Yield: The Unexpected Use of Long Non-Coding SINEUP RNAsMessenger RNA modifications: Form, distribution, and functionPOSTAR: a platform for exploring post-transcriptional regulation coordinated by RNA-binding proteinsTranscending the prediction paradigm: novel applications of SHAPE to RNA function and evolutionTunable protein synthesis by transcript isoforms in human cellsFoldAtlas: a repository for genome-wide RNA structure probing dataChemical Tools for Dissecting the Role of lncRNAs in Epigenetic RegulationTranscriptome-wide interrogation of RNA secondary structure in living cells with icSHAPE3D RNA and Functional Interactions from Evolutionary CouplingsStructure alignment-based classification of RNA-binding pockets reveals regional RNA recognition motifs on protein surfacesRNA Duplex Map in Living Cells Reveals Higher-Order Transcriptome StructureAnalysis of sequencing data for probing RNA secondary structures and protein-RNA binding in studying posttranscriptional regulations.RCK: accurate and efficient inference of sequence- and structure-based protein-RNA binding models from RNAcompete data.Transcriptomic analyses of RNA-binding proteins reveal eIF3c promotes cell proliferation in hepatocellular carcinoma.N6-methyladenosine alters RNA structure to regulate binding of a low-complexity proteinNew frontiers in translational control of the cancer genomeChemical and structural effects of base modifications in messenger RNA.DMS-MaPseq for genome-wide or targeted RNA structure probing in vivo.N(6)-methyladenosine in mRNA disrupts tRNA selection and translation-elongation dynamicsTemperature-responsive in vitro RNA structurome of Yersinia pseudotuberculosis.Dynamics of the human and viral m(6)A RNA methylomes during HIV-1 infection of T cells.Genome-wide profiling of in vivo RNA structure at single-nucleotide resolution using structure-seq.Secondary Structure across the Bacterial Transcriptome Reveals Versatile Roles in mRNA Regulation and FunctionRNA N6-methyladenosine methylation in post-transcriptional gene expression regulationRNAex: an RNA secondary structure prediction server enhanced by high-throughput structure-probing dataInferring RBP-Mediated Regulation in Lung Squamous Cell Carcinoma.A comprehensive database of high-throughput sequencing-based RNA secondary structure probing data (Structure Surfer).The Maternal-to-Zygotic Transition During Vertebrate Development: A Model for ReprogrammingUsing hiCLIP to identify RNA duplexes that interact with a specific RNA-binding protein.Long noncoding RNAs in cancer: from function to translation.Long noncoding RNAs: Re-writing dogmas of RNA processing and stability.Rapid evolutionary turnover underlies conserved lncRNA-genome interactionsRNA epigenetics--chemical messages for posttranscriptional gene regulation.
P2860
Q26744188-2BD31CE5-E40E-48C5-B0EF-DE292304CFE1Q26747608-65083A35-A31B-420E-BAA9-D1826BCE5767Q26747692-C63E979C-4395-44BB-91D0-A73F84AFBA40Q26748796-F48043AE-B013-41A9-9E7F-1188A6E1AB94Q27014065-29182331-190F-4F01-9D21-03FE96F9FF26Q27324428-57772E10-8391-4263-A2B5-28E711400E90Q27691278-FEF1E520-B3DC-48D8-9120-8E49146CC937Q28071440-027BD9AF-DE19-4EBC-B9BE-0ED9DAA87DF1Q28074540-55DCA8A8-35BF-4914-B460-AAC365ABDC11Q28584439-217AD8AE-371D-47B3-B05C-0E5995F427EEQ28585147-949EFC2D-6F6D-4B1E-BF4C-E5E6D7906F7EQ28603873-978F8E14-7139-445B-AF82-B14A8D11F137Q28818587-ABB2EDC0-8C9B-4D6E-BEAD-D149DDE3455DQ28821825-D6A97917-D031-4FBB-829E-58682BEFFD71Q28828753-FF14A07C-D027-43B2-B7EB-5BC461463AE2Q30387020-396AECDE-7F49-4A7E-BBA8-EA456C55ECECQ30397328-0EBCA167-4754-4FD3-ADAF-0AAA1393092BQ30460141-32222B66-34E3-4BB7-9C05-7C871216EAC1Q31031522-3BE807B9-37E9-4830-8F32-483073D4E0B0Q31108435-66B1B1B5-584E-43D8-954C-CFF3D4635A7CQ33738850-EB68A339-11F9-4935-AE68-0F9083015E9FQ33741052-B10FD045-9964-4A5F-BE41-C0DD6ADAD4C6Q33853235-AE3FAAD5-0935-4E7D-9621-FAA535CC2AFFQ33876249-D1098D79-B6FE-473A-B90E-7B12115BEC32Q33901950-6AD3617C-B652-426A-B374-2731B3D76D02Q34508439-40DB3631-FD5D-42F7-8A9F-7C05F04BEEC6Q34530771-2F633820-5546-4594-8C22-A14C753B3BEAQ34538813-846F2467-AAC6-469D-94CF-F5180F15E6C6Q35667041-6D9EAFC2-4184-411F-8179-DF3B23F46A50Q35818654-BB5D7BAE-B769-4873-A00F-FB133B2147D1Q35879032-BD804B66-1DE0-45F3-AE07-3470683D1F0BQ36006281-7E9F96B9-6DBD-4AB6-9A67-DFEA4716E546Q36019746-70C24971-24DE-4063-B0EC-F6FF3A4E1473Q36020180-A2818C82-DCBF-4884-B1CA-632C3AB3A032Q36266303-6B0FFB57-BCF9-4F7A-8B40-7683C8F6CF5FQ36288222-C38EF735-AECE-448A-8755-48875600FBB9Q36353705-E58A38E9-5AB0-4210-A58E-AAE81801CC7AQ36365731-93DAF977-4475-4C8E-8421-405281F4A384Q36480899-34AF72F1-53D9-4208-AD18-5F728F914713Q36515491-14BF5EDB-86F7-46E9-95BA-227BF5855038
P2860
Structural imprints in vivo decode RNA regulatory mechanisms.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Structural imprints in vivo decode RNA regulatory mechanisms.
@en
type
label
Structural imprints in vivo decode RNA regulatory mechanisms.
@en
prefLabel
Structural imprints in vivo decode RNA regulatory mechanisms.
@en
P2093
P2860
P356
P1433
P1476
Structural imprints in vivo decode RNA regulatory mechanisms.
@en
P2093
Eduardo A Torre
Eric T Kool
Hannes Y Kuchelmeister
Howard Y Chang
Jong-Wha Jung
Pedro J Batista
Pete Crisalli
Qiangfeng Cliff Zhang
Robert C Spitale
P2860
P2888
P304
P356
10.1038/NATURE14263
P407
P50
P577
2015-03-18T00:00:00Z
P5875
P6179
1012087852