Superior 5' homogeneity of RNA from ATP-initiated transcription under the T7 phi 2.5 promoter.
about
2'-O-ribose methylation of cap2 in human: function and evolution in a horizontally mobile familyStructure-guided engineering of the regioselectivity of RNA ligase ribozymesA deoxyribozyme that synthesizes 2',5'-branched RNA with any branch-site nucleotideIn vitro selection, characterization, and application of deoxyribozymes that cleave RNAAdvances in methods for native expression and purification of RNA for structural studiesWest Nile Virus 5'-Cap Structure Is Formed by Sequential Guanine N-7 and Ribose 2'-O Methylations by Nonstructural Protein 5High-yield production of short GpppA- and 7MeGpppA-capped RNAs and HPLC-monitoring of methyltransfer reactions at the guanine-N7 and adenosine-2'O positionsDistinct RNA Elements Confer Specificity to Flavivirus RNA Cap Methylation EventsPhosphorylation of yellow fever virus NS5 alters methyltransferase activityFunctional screen reveals SARS coronavirus nonstructural protein nsp14 as a novel cap N7 methyltransferaseIn vitro reconstitution of SARS-coronavirus mRNA cap methylationSARS coronavirus nsp1 protein induces template-dependent endonucleolytic cleavage of mRNAs: viral mRNAs are resistant to nsp1-induced RNA cleavageA generalizable DNA-catalyzed approach to peptide-nucleic acid conjugation.Crystallization and preliminary X-ray diffraction analysis of the barley yellow dwarf virus cap-independent translation element.Characterization of synthetic Chikungunya viruses based on the consensus sequence of recent E1-226V isolatesAptamer Displacement Screen for Flaviviral RNA Methyltransferase Inhibitors.Structural basis and functional analysis of the SARS coronavirus nsp14-nsp10 complexThe 2'-O-ribose methyltransferase for cap 1 of spliced leader RNA and U1 small nuclear RNA in Trypanosoma brucei.A novel route for preparing 5' cap mimics and capped RNAs: phosphate-modified cap analogues obtained via click chemistryInitiation of RNA decay in Escherichia coli by 5' pyrophosphate removal.Tumour-targeted nanomedicines: principles and practice.Specificity of RppH-dependent RNA degradation in Bacillus subtilisMouse embryonic stem cells have underdeveloped antiviral mechanisms that can be exploited for the development of mRNA-mediated gene expression strategy.RNA synthesis and purification for structural studies.5' End Nicotinamide Adenine Dinucleotide Cap in Human Cells Promotes RNA Decay through DXO-Mediated deNADding.RNAcompete methodology and application to determine sequence preferences of unconventional RNA-binding proteins.West Nile virus methyltransferase domain interacts with protein kinase G.A general method for rapid and cost-efficient large-scale production of 5' capped RNA.Sequence-specific cleavage of RNA by Type II restriction enzymes.A Simple and Cost-Effective Approach for In Vitro Production of Sliced siRNAs as Potent Triggers for RNAi.mRNA cap analogues substituted in the tetraphosphate chain with CX2: identification of O-to-CCl2 as the first bridging modification that confers resistance to decapping without impairing translation5'-deoxy-5'-hydrazinylguanosine as an initiator of T7 Rna polymerase-catalyzed transcriptions for the preparation of labeling-ready RNAs.Synthesis of 5' cap-0 and cap-1 RNAs using solid-phase chemistry coupled with enzymatic methylation by human (guanine-N⁷)-methyl transferase.Affinity purification of T7 RNA transcripts with homogeneous ends using ARiBo and CRISPR tagsThe thermodynamic basis for viral RNA detection by the RIG-I innate immune sensor.Key labeling technologies to tackle sizeable problems in RNA structural biology.Development of RNA aptamer that inhibits methyltransferase activity of dengue virus.Synthesis of biotin-AMP conjugate for 5' biotin labeling of RNA through one-step in vitro transcription.The TbMTr1 spliced leader RNA cap 1 2'-O-ribose methyltransferase from Trypanosoma brucei acts with substrate specificity.
P2860
Q24292858-67D08D3A-A54B-47F7-82A0-47E1F247A274Q24649340-52118FF2-FE0D-4BAD-A1EF-700F178F4E12Q24810581-F887201A-983B-42DF-9FF2-3F0F4B3A7AB6Q24817034-F9069BCA-5459-44C4-ADB2-D8DB49671822Q27026801-F51D5AA3-8717-45E1-89D2-C7F650DF6F11Q27477465-4C484302-DFFB-446E-BA8B-16B6A0E7C15EQ27478276-0D5F2488-F3AB-4E89-A885-736CB5131E2DQ27480347-7E793940-A238-4831-8A09-52133E39874FQ27487335-42FBE4A0-B93B-4B3E-A542-B9B860353515Q27487986-E2AA9716-4CF7-4AFB-9D3A-55526F646584Q28473757-F991105A-6F80-4C3E-8B2F-7321EE4079C6Q34102763-C6E5272B-B8FF-4C94-A14A-78510AC1925FQ34111560-C68F4352-1BA5-4CB0-8145-D1AFEC718326Q34925540-B3061BB6-9ADD-4EE3-AE39-A0FE6962BCA7Q34926408-8C9636F2-22CC-429A-978E-B5DF787269AEQ35162542-E92E47B1-DEFF-4A30-8177-DDF3C19443D5Q35910211-F42F575C-2BBC-4040-A0FE-AECFB10B772CQ35950293-69017706-5C8F-4ECF-B5BF-0D46B3532042Q36357301-85CF10EA-E122-4AF2-8909-944B1EBB6B1DQ36377532-4B90FCC8-DA3F-4474-A873-CBCC51BDE762Q36858135-C0034E60-07A4-40B0-A799-E5C3F00A8B09Q36895720-433246A6-58C0-4DA6-9023-84102BD99DACQ37610646-ACFE9C75-98CC-416C-BABB-39D5D3AB1F0DQ38199299-62C7DE7C-0B7A-472A-9F9E-C334124043F7Q38914420-342CDA76-69EA-4506-B9AF-05E2657A8230Q39107523-E0A82BD7-AD00-4BBC-B72D-A464852DBFA4Q39122110-3EA0E342-595A-44DC-A09D-AD2F276DF09AQ40671228-A19D01BF-676B-4F66-B6E3-9949C588B17BQ41132592-F1925C00-FFB5-442E-940A-33B9049F155AQ41191245-9B69BF96-D5A5-4D16-BA14-FDD5DF39BCC6Q41630115-658245B5-12AD-4DAF-87A0-E53C35DC0A36Q41954954-4A9A1EDC-0807-45A1-8248-4A18B210A50FQ41976960-2BDF688B-C56D-4537-A354-E17B669A386CQ42157889-6320A646-359E-4204-916D-A49C246126E7Q42410757-90AA13A9-7278-46D3-90CC-E53331D7FC8FQ43187753-B88FA312-8711-45E8-BC58-01D3086E62D1Q45325807-F4830183-B641-4FE1-9C02-963445BBAE86Q46260753-836CECC9-E7DE-4181-97E2-9D74D25EF7F6Q46817635-8A08E78E-C702-4AFC-9795-248FE33DAE61
P2860
Superior 5' homogeneity of RNA from ATP-initiated transcription under the T7 phi 2.5 promoter.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 January 2004
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@en
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@nl
type
label
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@en
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@nl
prefLabel
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@en
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@nl
P2093
P2860
P356
P1476
Superior 5' homogeneity of RNA ...... under the T7 phi 2.5 promoter.
@en
P2093
Faqing Huang
Guocan Wang
Tricia M Coleman
P2860
P356
10.1093/NAR/GNH007
P407
P577
2004-01-15T00:00:00Z