about
Systematic identification of mRNAs recruited to argonaute 2 by specific microRNAs and corresponding changes in transcript abundanceHITS-CLIP: panoramic views of protein-RNA regulation in living cellsMicroRNA-210: a unique and pleiotropic hypoxamirExperimental strategies for microRNA target identificationMicroRNAs: target recognition and regulatory functionsmiRNAs in human cancerComprehensive discovery of endogenous Argonaute binding sites in Caenorhabditis elegansLittle but loud: small RNAs have a resounding affect on ear developmentA novel biochemical method to identify target genes of individual microRNAs: identification of a new Caenorhabditis elegans let-7 targetArgonaute HITS-CLIP decodes microRNA-mRNA interaction mapsAn integrated approach for experimental target identification of hypoxia-induced miR-210A role for microRNAs in the Drosophila circadian clockHypoxia-inducible mir-210 regulates normoxic gene expression involved in tumor initiation.The impact of microRNAs on protein outputIntegration of microRNA miR-122 in hepatic circadian gene expressionMicroRNA Target Recognition: Insights from Transcriptome-Wide Non-Canonical InteractionsTiny giants of gene regulation: experimental strategies for microRNA functional studiesMicroRNAs: New Biomarkers for Diagnosis, Prognosis, Therapy Prediction and Therapeutic Tools for Breast CancerHypoxamiRs and cancer: from biology to targeted therapyMicroRNAs in the Stressed Heart: Sorting the Signal from the NoiseMicroRNA-target interactions: new insights from genome-wide approachesMicroRNAs Are Involved in the Regulation of Ovary Development in the Pathogenic Blood Fluke Schistosoma japonicumMicroRNA-restricted transgene expression in the retinamiR-24 regulates apoptosis by targeting the open reading frame (ORF) region of FAF1 in cancer cellsSystematic microRNA analysis identifies ATP6V0C as an essential host factor for human cytomegalovirus replicationInteractome networks and human diseaseVirus-host interactions: from systems biology to translational researchMicroRNAs in cancer.MicroRNA miR-124 regulates neurite outgrowth during neuronal differentiation.Silencing microRNA-134 produces neuroprotective and prolonged seizure-suppressive effectsPARma: identification of microRNA target sites in AGO-PAR-CLIP data.Concordant regulation of translation and mRNA abundance for hundreds of targets of a human microRNARelative contribution of sequence and structure features to the mRNA binding of Argonaute/EIF2C-miRNA complexes and the degradation of miRNA targets.An expression meta-analysis of predicted microRNA targets identifies a diagnostic signature for lung cancer.Reexamining microRNA site accessibility in Drosophila: a population genomics studyA useful approach to total analysis of RISC-associated RNAmicroRNA-mediated messenger RNA deadenylation contributes to translational repression in mammalian cells.MicroRNA Target Identification-Experimental Approaches.Survey of Computational Algorithms for MicroRNA Target Prediction.Novel primate miRNAs coevolved with ancient target genes in germinal zone-specific expression patterns
P2860
Q21090092-18AB6761-8346-4E4D-A018-18F0A893671DQ24594553-D5A68E74-8E32-4AEC-9E49-2D74A9C05D33Q24601095-4D601706-DC98-4A5E-981D-5FD40FF32F91Q24603494-CF97D63C-8933-4315-8975-79061600ED15Q24609584-03B64330-9073-426F-98A4-3A2F830D925AQ24628889-0642A79E-E03D-477C-BC64-4CBC4820D153Q24632455-CC0AAC35-265A-4C59-9995-5C1523210112Q24642094-10AD1898-D821-4027-9410-A08AD29AA056Q24644508-9DF95625-B9C2-44D9-A9B7-AB4DC372C445Q24645826-4C8B5338-7F95-4B82-97C1-33EE615DEB72Q24646947-64D5D5AA-36AB-405B-80A6-214909AE44E7Q24647341-D90D3B44-3CF2-4862-AE5C-06EB987A5177Q24651016-90FDA941-969B-491D-A37C-6C88E08EB323Q24653549-C379AE80-E9A9-4E55-8AE4-79511BC1932FQ24657953-8A18D1AF-3816-4D9C-8C4E-66CA5C061AD7Q26749540-C2B5120D-0C20-4803-BFC1-AF0B76CBCED1Q26767339-A7053FD4-B213-4023-9DFC-0B03576D4E93Q26801108-4728B0C3-254F-4277-A233-B8568B852671Q26863298-D207675A-0064-440E-A74D-2866DD1C0170Q26995334-71F068AD-9B6B-4613-A489-AE84D52A63CAQ27000642-7D5A0397-A8B8-4389-8742-C9F80C7CBE8FQ27315999-4FB97425-B655-4948-9818-364BCE139632Q27332143-3B7B9FA7-0241-434A-B148-3397EB532B3DQ28473023-AF3F52A4-504E-415F-9BD7-2898296B569AQ28538007-11901B9E-AE9E-4976-8C1F-AB1338D9CA2EQ29615773-BA51773F-6EED-4443-95F0-4985412C77E5Q30378653-02217DD0-CC1C-4FC2-B6F8-464ACC9150BEQ30437444-F5D8ABD6-ED9F-401B-AF38-1350F3FF484CQ30488466-C6E823F9-9B0C-45F6-9F06-0B3CBEE0EDFAQ30524857-7F94F17D-EAAA-43E0-B1C0-D5A70D86D95AQ30657908-53D25912-035C-46D6-868C-C793311C90BAQ30878993-02D20BF4-8A00-456F-AD71-BBE83EBB12B1Q33347856-73CED420-A393-42EE-99BC-A5529D0C7299Q33393471-F7155318-827F-4C78-A6F2-5F9805698120Q33455484-C488649A-DFEF-46C8-B254-51BD5223C641Q33496604-06190F86-7977-4D8C-B107-99DC09D81D97Q33497312-DCFA018E-BDE7-4AEC-BB5E-B0793520B6C2Q33565401-C1C0F67F-B751-43F5-AAC9-F14AACBC4E30Q33599828-1AF79623-2DA7-491C-97E4-EA04EE91739BQ33609404-5E8C92F7-AD07-45E8-B9E0-F4DDA2AEAED5
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
A biochemical approach to identifying microRNA targets
@ast
A biochemical approach to identifying microRNA targets
@en
type
label
A biochemical approach to identifying microRNA targets
@ast
A biochemical approach to identifying microRNA targets
@en
prefLabel
A biochemical approach to identifying microRNA targets
@ast
A biochemical approach to identifying microRNA targets
@en
P2093
P2860
P356
P1476
A biochemical approach to identifying microRNA targets
@en
P2093
Bryan H Schmidt
Cecilia Conaco
Fedor V Karginov
Gail Mandel
Joel S Parker
Zhenyu Xuan
P2860
P304
19291-19296
P356
10.1073/PNAS.0709971104
P407
P577
2007-11-27T00:00:00Z