about
Thirty-five years of research into ribozymes and nucleic acid catalysis: where do we stand today?DNA as sensors and imaging agents for metal ionsCrystal structure of a DNA catalystPursuing DNA catalysts for protein modificationBiophysically inspired rational design of structured chimeric substrates for DNAzyme cascade engineeringCatalytic DNA with phosphatase activityActivation and deactivation of DNAzyme and antisense function with light for the photochemical regulation of gene expression in mammalian cellsA divalent metal-dependent self-cleaving DNAzyme with a tyrosine side chain.In vitro selection of DNA-cleaving deoxyribozyme with site-specific thymidine excision activitySignal propagation in multi-layer DNAzyme cascades using structured chimeric substratesDNA-catalyzed lysine side chain modificationThe expanding view of RNA and DNA function.Functional nucleic acid-based sensors for heavy metal ion assays.Improved deoxyribozymes for synthesis of covalently branched DNA and RNA.DNA-catalyzed covalent modification of amino acid side chains in tethered and free peptide substrates.An Efficient Catalytic DNA that Cleaves L-RNA.DNA-catalyzed reactivity of a phosphoramidate functional group and formation of an unusual pyrophosphoramidate linkage.DNA as a versatile chemical component for catalysis, encoding, and stereocontrolMerely two mutations switch a DNA-hydrolyzing deoxyribozyme from heterobimetallic (Zn2+/Mn2+) to monometallic (Zn2+-only) behavior.DNA-catalyzed reductive aminationSynthesis and Enzymatic Incorporation of Modified Deoxyuridine Triphosphates.Establishing broad generality of DNA catalysts for site-specific hydrolysis of single-stranded DNAA DNAzyme requiring two different metal ions at two distinct sitesSystematic evaluation of the dependence of deoxyribozyme catalysis on random region lengthLanthanide ions as required cofactors for DNA catalysts.Expanding DNAzyme Functionality through Enzyme Cascades with Applications in Single Nucleotide Repair and Tunable DNA-Directed Assembly of NanomaterialsDNA-Catalyzed Amide HydrolysisDNA Oligonucleotide 3'-Phosphorylation by a DNA Enzyme.DNA catalysis of a normally disfavored RNA hydrolysis reaction.Catalytic DNA: Scope, Applications, and Biochemistry of Deoxyribozymes.Enhanced deoxyribozyme-catalyzed RNA ligation in the presence of organic cosolventsDeoxyribozymes: selection design and serendipity in the development of DNA catalysts.DNA-catalyzed hydrolysis of esters and aromatic amides.Nucleic acid catalysis: metals, nucleobases, and other cofactors.Chemical modifications of artificial restriction DNA cutter (ARCUT) to promote its in vivo and in vitro applications.Catalytic molecular logic devices by DNAzyme displacement.Site-selective DNA hydrolysis induced by a metal-free peptide nucleic acid-cyclen conjugate.DNA Catalysis: The Chemical Repertoire of DNAzymes.Biochemical and Biophysical Understanding of Metal Ion Selectivity of DNAzymes.Characterization of deoxyribozymes with site-specific oxidative cleavage activity against DNA obtained by in vitro selection.
P2860
Q26740637-2365F9BB-6183-493D-8B6F-5A72CE8E69C0Q27000461-65D7FEF9-4123-4F00-BCC3-095E8946BF5DQ27703505-4657EC4C-D972-47AE-B676-0433B52343ABQ28314678-C24365E3-2225-4A0D-8ED4-93ADF07A17A0Q28544406-AC0E81F0-E808-40F5-B12C-EAC5FBCA7607Q30538478-7CCDBEFA-B364-4566-AB92-0A6EF3E52ABFQ33822273-04600A97-2861-4DB9-B0D8-664E0C82A026Q33931732-5C1BFB03-41DF-44DD-A4B2-B34A229D07B9Q34044298-D9A30A00-29D6-4F1F-8548-484772E2F532Q34050264-88597348-115B-43F1-BD3B-952F31C007EDQ34060141-A21FA3EB-0EDC-4667-9729-433E89F3F522Q34228096-D5FE1778-FF21-4FC7-9577-03AEF3832FD8Q34445518-25B7CA74-4285-481D-A48B-232C2033F0E5Q34474105-A47FA08B-1CBA-4DAA-B0C9-A37F97B4D901Q35058217-F9DAA805-245B-49F8-B5A3-EFD51BCF6DC2Q35623232-225F8505-6A4D-491F-9E8B-ED11080C9D35Q35710932-6AA5C2A4-1750-4049-AA77-29C18717D24DQ35710979-5BF6AFD0-3D7E-4567-B0B3-E00CDA717262Q35715341-F6012892-76FB-48FC-B630-44A814D169C5Q35715374-E711D07E-BF5A-4A77-8FDE-733EF3F9B345Q35715675-703A12C9-DCB6-472F-B7E1-2DA2EE85422EQ35780092-A0FD987B-C80F-4272-967E-C38AFB749245Q36443318-1B4AF220-3019-4BFA-ABCA-059124FAB1FAQ36457076-23219FDA-0E06-4F4A-A108-4E5D76093703Q36464736-E06D6515-1C0A-4189-9D93-5EAB555AFDC2Q36473424-CBD5B7FF-374C-4282-960B-73478A5412BCQ36619856-C2CEC80E-3519-404D-B2BD-9A2CB7B61377Q36889198-7993E866-D71A-49D3-9BCB-D65EF51B1ED5Q36984202-49486E53-9F97-4921-AA2D-65C5C4CA1750Q37059194-09E97393-5478-41AE-B086-B1E393F2C926Q37359728-C03B64EC-9445-40F9-ABC3-81569CDB11F5Q37394252-C000060C-733B-4833-A187-89FB6A069359Q37624385-CC55FED6-68B3-49A3-A93E-90F532B151FAQ38204496-CA81433D-722E-49A1-A6F2-96D8D75CDFDFQ38294445-C1F52B7A-08DD-4F40-A589-95E0494422D9Q38308052-C8775F06-9B81-43D7-B169-E92217F05BCAQ38332096-AE63A0A9-99B2-48FC-BA32-DB9B9C2D9648Q38648771-ACCBE34C-DEF9-4D91-BFB4-DEC6F30AAC35Q38815539-21C38E67-D825-4E46-8174-DCFBCDD97944Q40062697-39B42D60-580D-4C67-B7BF-2BD03ECAA982
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
DNA-catalyzed sequence-specific hydrolysis of DNA
@ast
DNA-catalyzed sequence-specific hydrolysis of DNA
@en
DNA-catalyzed sequence-specific hydrolysis of DNA
@en-gb
DNA-catalyzed sequence-specific hydrolysis of DNA
@nl
type
label
DNA-catalyzed sequence-specific hydrolysis of DNA
@ast
DNA-catalyzed sequence-specific hydrolysis of DNA
@en
DNA-catalyzed sequence-specific hydrolysis of DNA
@en-gb
DNA-catalyzed sequence-specific hydrolysis of DNA
@nl
prefLabel
DNA-catalyzed sequence-specific hydrolysis of DNA
@ast
DNA-catalyzed sequence-specific hydrolysis of DNA
@en
DNA-catalyzed sequence-specific hydrolysis of DNA
@en-gb
DNA-catalyzed sequence-specific hydrolysis of DNA
@nl
P2093
P2860
P3181
P356
P1476
DNA-catalyzed sequence-specific hydrolysis of DNA
@en
P2093
Amit Sachdeva
Madhavaiah Chandra
Scott K Silverman
P2860
P2888
P304
P3181
P356
10.1038/NCHEMBIO.201
P407
P577
2009-10-01T00:00:00Z
P5875
P6179
1013479610