about
Noncoding RNAs and pancreatic cancerIntegration of genome scale data for identifying new players in colorectal cancerDNA dynamics and single-molecule biologyBioinformatic tools for microRNA dissectionMicroRNAs: new regulators of Toll-like receptor signalling pathwaysThe interplay between microRNAs and histone deacetylases in neurological diseasesCurrent status of miRNA-targeting therapeutics and preclinical studies against gastroenterological carcinomaRegulatory Mechanisms of the Molecular Pathways in Fibrosis Induced by MicroRNAsTools for Sequence-Based miRNA Target Prediction: What to Choose?Identification of a core miRNA-pathway regulatory network in glioma by therapeutically targeting miR-181d, miR-21, miR-23b, β-Catenin, CBP, and STAT3Fluoxetine Increases the Expression of miR-572 and miR-663a in Human Neuroblastoma Cell LinesA tool for design of primers for microRNA-specific quantitative RT-qPCRstarBase v2.0: decoding miRNA-ceRNA, miRNA-ncRNA and protein-RNA interaction networks from large-scale CLIP-Seq data.Sensitive and highly resolved identification of RNA-protein interaction sites in PAR-CLIP data.Improving small RNA-seq by using a synthetic spike-in set for size-range quality control together with a set for data normalization.Exploring cancer genomic data from the cancer genome atlas projectMicroRNA-302b augments host defense to bacteria by regulating inflammatory responses via feedback to TLR/IRAK4 circuits.Differential processing of small RNAs during endoplasmic reticulum stress.The expression of Dicer and Drosha in matched normal tissues, tumours and lymph node metastases in triple negative breast cancer.Over-expression of Thrombospondin 4 correlates with loss of miR-142 and contributes to migration and vascular invasion of advanced hepatocellular carcinomamiRNA polymorphisms and risk of gastric cancer in Asian populationMicroRNAs shape circadian hepatic gene expression on a transcriptome-wide scale.Lin28a regulates neuronal differentiation and controls miR-9 production.Long noncoding RNAs are spatially correlated with transcription factors and regulate lung development.MicroRNA-146a provides feedback regulation of lyme arthritis but not carditis during infection with Borrelia burgdorferi.The tumor suppressor role of miR-124 in osteosarcomaMicroRNA-1825 induces proliferation of adult cardiomyocytes and promotes cardiac regeneration post ischemic injury.Off-target effect of doublecortin family shRNA on neuronal migration associated with endogenous microRNA dysregulationMicroRNA-21 (miR-21) regulates cellular proliferation, invasion, migration, and apoptosis by targeting PTEN, RECK and Bcl-2 in lung squamous carcinoma, Gejiu City, China.The potential of microRNAs in personalized medicine against cancers.Candidate microRNA biomarkers of pancreatic ductal adenocarcinoma: meta-analysis, experimental validation and clinical significance.Epstein-Barr virus EBNA1 protein regulates viral latency through effects on let-7 microRNA and dicer.Genetic networks lead and follow tumor development: microRNA regulation of cell cycle and apoptosis in the p53 pathways.Selective microRNA uridylation by Zcchc6 (TUT7) and Zcchc11 (TUT4).MiR-199a regulates cell proliferation and survival by targeting FZD7.Up-regulation of miR-335 predicts a favorable prognosis in esophageal squamous cell carcinomaSmoking status impacts microRNA mediated prognosis and lung adenocarcinoma biologyStarScan: a web server for scanning small RNA targets from degradome sequencing datamiR-105/Runx2 axis mediates FGF2-induced ADAMTS expression in osteoarthritis cartilage.Systems Biology-Derived Discoveries of Intrinsic Clocks.
P2860
Q26774630-C6A6C47D-9068-46ED-AD3E-CE2AAEDC04D9Q26774701-D1B1556A-A0A2-47F5-9898-9737D7646103Q26999369-499A30C1-A360-4E97-A36C-9D0A55AAEADBQ27004412-2F565B25-813E-444F-95AA-7517272E6798Q27010055-0ED3BB63-3EE0-4E7F-979D-90863DB93819Q27024466-91E30DB4-1412-452C-8FEF-61958646F863Q27026846-D11F51EF-D7C9-4580-B1A3-D408CE498D8BQ28072792-E38FC436-2ECE-40AF-800D-80C3FD107C99Q28075865-6A355DA3-B11D-4F83-9C89-049BAF549C9EQ28389846-6FEBD83C-0647-4A09-ABDD-9382DE6880C6Q28554574-3EA4B172-4C52-40A3-9031-42EB9512029CQ30571626-9BDA8A25-ED90-49B8-9395-CEF7E863D7D2Q30705717-50D88592-CDA8-421D-BE7E-3CAA104B8A99Q30886848-4E72532E-2FE4-46EC-8237-FA36C4CF9EADQ30931084-866B8995-5C8E-4E6E-8E31-42C4E622874DQ31121923-26F7460E-59D1-4C9F-BBA7-3FD68F798D48Q33572152-6BDD3112-6EAF-430C-81B4-F26CB9764F1CQ33612455-6CB190C0-2DF2-4106-8872-71AF8AFE988FQ33613310-99576DFC-0239-404A-83E1-25941B356CD7Q33618665-B12F633A-BF1A-465F-B79F-838EA3357554Q33626800-046C7E5E-4D8D-4FBF-8FF5-AD7039A86250Q33655877-4114287B-39DE-455C-B743-67135BF3311DQ33670468-F168697A-0CB2-481C-82FF-FCC4E2DC806CQ33789606-1E45EDDD-8955-45D8-9D25-1A55F143C61CQ33812777-2A0B807B-1C02-4BC5-9FC6-B59C4B97DBA5Q33817108-7F6DE69C-0F33-420F-83D3-E74DAB0BDEE2Q33850370-EA7FDB4F-92F6-4516-9F5F-80ECC50EF0E1Q33861313-69CDD9FF-C730-4AB6-A54A-25AE55E38986Q33989118-3A46D4D5-455F-4E0F-A896-21BEDF7E4884Q34177547-7196829D-ABBE-4C2F-B042-8AD8D215BE54Q34249344-3193AB99-17AE-42FC-AB1F-E98247C92F76Q34261764-485D980A-BAF0-4839-BBFA-18E44772E626Q34268565-FB76FAA5-2A1E-4584-BC45-E7DDE8EAF6BCQ34312973-71A3332F-50FA-474C-B5C4-F6F0AACF4C21Q34338509-197FDC28-3BC8-4B1C-A9F3-BC68A318E027Q34371717-F2F7DF08-924D-4073-902D-A12680729915Q34436424-7550FC22-8638-44A4-BE7A-3F27130D712EQ34477032-6A6F44DC-B444-4FF3-A8B7-C9BDCB0C914BQ34511015-C851871A-5126-407E-BDDD-9EC95FEE1F3EQ34551665-3858C9EC-47AD-421F-A9EB-170B64ADEFD6
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
The long and short of microRNA.
@en
type
label
The long and short of microRNA.
@en
prefLabel
The long and short of microRNA.
@en
P2093
P1433
P1476
The long and short of microRNA.
@en
P2093
Chris J Norbury
Luke A Yates
Robert J C Gilbert
P304
P356
10.1016/J.CELL.2013.04.003
P407
P577
2013-04-01T00:00:00Z