about
In vivo properties of an anti-GnRH Spiegelmer: an example of an oligonucleotide-based therapeutic substance class.Development of an automated in vitro selection protocol to obtain RNA-based aptamers: identification of a biostable substance P antagonistFrom selection hits to clinical leads: progress in aptamer discoveryLearning from the unexpected in life and DNA self-assemblyGeneration of Aptamers with an Expanded Chemical RepertoireNucleic Acid Aptamers: An Emerging Tool for Biotechnology and Biomedical SensingNucleic Acid aptamers: new methods for selection, stabilization, and application in biomedical scienceA two B-Z junction containing DNA resolves into an all right-handed double-helix.Cardiac-targeted delivery of regulatory RNA molecules and genes for the treatment of heart failureChallenges and opportunities for small molecule aptamer developmentAptamers and the RNA world, past and presentIn vitro selection using a dual RNA library that allows primerless selectionA thermostable d-polymerase for mirror-image PCR.Short bioactive Spiegelmers to migraine-associated calcitonin gene-related peptide rapidly identified by a novel approach: tailored-SELEXAnti-ghrelin Spiegelmer NOX-B11 inhibits neurostimulatory and orexigenic effects of peripheral ghrelin in rats.Mirror-image phage display: aiming at the mirror.Spiegelmers: biostable aptamers.RNase-stable RNA: conformational parameters of the nucleic acid backbone for binding to RNase T1.Crystallization and preliminary X-ray diffraction data of an LNA 7-mer duplex derived from a ricin aptamer.Refilling drug delivery depots through the blood.The effects of the anti-hepcidin Spiegelmer NOX-H94 on inflammation-induced anemia in cynomolgus monkeys.SDF-1 inhibition targets the bone marrow niche for cancer therapy.Chiral histidine selection by D-ribose RNA.New Technologies Provide Quantum Changes in the Scale, Speed, and Success of SELEX Methods and Aptamer Characterization.Spiegelzymes: sequence specific hydrolysis of L-RNA with mirror image hammerhead ribozymes and DNAzymes.An L-RNA-based aquaretic agent that inhibits vasopressin in vivo.RAPID-SELEX for RNA aptamersNucleic Acid Ligands With Protein-like Side Chains: Modified Aptamers and Their Use as Diagnostic and Therapeutic AgentsNucleic acid aptamers as tools and drugs: recent developments.Stereospecificity of oligonucleotide interactions revisited: no evidence for heterochiral hybridization and ribozyme/DNAzyme activityAn Efficient Catalytic DNA that Cleaves L-RNA.Aptamers: new arrows to target dendritic cells.Intravitreal inhibition of complement C5a reduces choroidal neovascularization in mice.A novel CGRP-neutralizing Spiegelmer attenuates neurogenic plasma protein extravasationAptamers for pharmaceuticals and their application in environmental analytics.Aptamers: current challenges and future prospects.Thermodynamic Features of Structural Motifs Formed by β-L-RNAHigh affinity ligands from in vitro selection: complex targets.Ligand-dependent exponential amplification of a self-replicating L-RNA enzyme.Natural and engineered nucleic acids as tools to explore biology.
P2860
Q24530841-CE38ACFC-894D-49FF-88AF-864F0463BC4DQ24799009-29C10E4C-9D80-4458-AA21-7EDAF2EEADE9Q26752799-336DEEDD-7905-4B31-85FB-0AD26423394DQ26766077-5C06A498-B0F9-4246-9F3D-D6AB5DEC50DCQ26782794-082552B0-8B66-40F8-8E7C-4EB531E817DAQ26825644-5E125261-7C6A-4392-BD10-8E13653372BCQ26995510-3CDB6686-EC77-4869-BFB8-E7E5C578A958Q27628071-7750C06C-351B-494E-B520-7C10C1B1D51AQ27691424-CC0B3372-E581-4B73-979E-5D06837CC6A8Q28484847-4B619A94-8899-42B9-B430-A607D0BA64A4Q28731938-AC2AEECC-040F-420D-BDC4-5BE1E27B4EC3Q29036552-125693C9-DFCC-432F-AF96-F64783802AE8Q30313484-374740D4-AECF-499D-A48E-C2AEACDA1616Q30823550-668D787C-2AD4-4C47-8F4D-65F280C7E00EQ30968739-E6859D4A-4EBB-43FA-91F6-0F28B11950FFQ30980912-FD929821-B55C-4013-9EC6-FAE76719BA3EQ31005222-325C0F7F-CD30-46A5-A8E6-2ABEDAD7C6E4Q31006328-D70581AB-BCF3-402F-A028-08F2159FD8AFQ33499182-393F28FE-1B66-42C4-85B4-2BA96AF9AE16Q34144515-BFDF6516-EFA7-4042-B9A5-B5C015CC3086Q34324354-01B14313-7EFB-406F-88D2-C572E3210FAAQ34324830-F7DBC679-A72C-4017-8020-E3EE68BF4938Q34370110-01CD128D-EAB4-4EB4-98A3-FC190DFDC883Q34459376-30BD8751-747C-4891-97DD-29DA797F8F99Q34575626-E1849BD4-B1CD-4F32-8809-28A6C9AAAE88Q34597041-B84F4F5F-EAC5-48EC-8A3E-FBBE682A8954Q35077674-9BAB8C53-9357-450A-8562-299EC8AA54B7Q35309726-BBFFF94B-767D-4482-9A53-80A8F63261EEQ35549348-4D1A625A-6DF2-44F1-9027-13514381D061Q35560537-55E962D4-F561-45D7-AFC0-646304DF4878Q35623232-7E988710-368F-45D4-ACFF-A7121F2FA1ECQ35624065-E1203506-9DDE-4C09-811E-25FFAB7B0FE9Q35633511-53EE0AC7-B690-45FD-BE27-542C326F6339Q35693015-56DFB62C-1AD6-4FFA-89EC-B143D790E8B8Q35761658-CD431AE7-5D09-41AD-9F9E-BA9082ACDEE1Q35859041-E1DC2F59-5539-4F04-81CC-9C2A26080417Q35933327-35C8749D-D364-4DE6-88C7-DE89256A0103Q35974349-90D6ED12-4D7C-4794-9E7E-50ADD2606A83Q35975936-1275E5F0-049C-4CF0-BBAE-3E1A9F83F333Q35986039-213E0071-BE03-4267-9AF7-CC9F49E554A5
P2860
description
1996 nî lūn-bûn
@nan
1996 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Mirror-image RNA that binds D-adenosine.
@ast
Mirror-image RNA that binds D-adenosine.
@en
type
label
Mirror-image RNA that binds D-adenosine.
@ast
Mirror-image RNA that binds D-adenosine.
@en
prefLabel
Mirror-image RNA that binds D-adenosine.
@ast
Mirror-image RNA that binds D-adenosine.
@en
P2093
P2860
P356
P1433
P1476
Mirror-image RNA that binds D-adenosine.
@en
P2093
P2860
P2888
P304
P356
10.1038/NBT0996-1112
P577
1996-09-01T00:00:00Z
P5875
P6179
1002219768