Thiophilic metal ion rescue of phosphorothioate interference within the Tetrahymena ribozyme P4-P6 domain.
about
Functional identification of catalytic metal ion binding sites within RNA.Understanding nucleic acid-ion interactionsOn the origin of life in the Zinc world. 2. Validation of the hypothesis on the photosynthesizing zinc sulfide edifices as cradles of life on EarthThe structural basis of RNA-catalyzed RNA polymerization.Crystal structure of 3WJ core revealing divalent ion-promoted thermostability and assembly of the Phi29 hexameric motor pRNABackbone and nucleobase contacts to glucosamine-6-phosphate in the glmS ribozymeThe hammerhead cleavage reaction in monovalent cationsStructural basis for recognition of Co2+ by RNA aptamers.The use of divalent metal ions by type II topoisomerases.Helix P4 is a divalent metal ion binding site in the conserved core of the ribonuclease P ribozyme.An unconventional origin of metal-ion rescue and inhibition in the Tetrahymena group I ribozyme reaction.Specific phosphorothioate substitutions probe the active site of Bacillus subtilis ribonuclease P.The catalytic diversity of RNAs.Use of divalent metal ions in the DNA cleavage reaction of topoisomerase IV.2'-Fluoro substituents can mimic native 2'-hydroxyls within structured RNA.A guide to ions and RNA structureStructural metals in the group I intron: a ribozyme with a multiple metal ion core.Identification of c-di-GMP derivatives resistant to an EAL domain phosphodiesteraseHuman topoisomerase IIalpha uses a two-metal-ion mechanism for DNA cleavage.Probing RNA structure and function by nucleotide analog interference mapping.Use of divalent metal ions in the dna cleavage reaction of human type II topoisomerases.Metal ion interactions in the DNA cleavage/ligation active site of human topoisomerase IIalphaMultiple metal-binding cores are required for metalloregulation by M-box riboswitch RNAsEvidence for a polynuclear metal ion binding site in the catalytic domain of ribonuclease P RNA.The role of phosphate groups in the VS ribozyme-substrate interaction.Distinct sites of phosphorothioate substitution interfere with folding and splicing of the Anabaena group I intronModulation of individual steps in group I intron catalysis by a peripheral metal ion.Functional identification of ligands for a catalytic metal ion in group I intronsMetal-ion rescue revisited: biochemical detection of site-bound metal ions important for RNA folding.Charge density of divalent metal cations determines RNA stability.Metal-ion coordination by U6 small nuclear RNA contributes to catalysis in the spliceosome.Specific metal-ion binding sites in a model of the P4-P6 triple-helical domain of a group I intron.Optimizing thiophosphorylation in the presence of competing phosphorylation with MALDI-TOF-MS detection.Debranchase-resistant labeling of RNA using the 10DM24 deoxyribozyme and fluorescent modified nucleotides.
P2860
Q24812515-306A08DD-E1AE-430D-A471-E9DD040BF011Q26822427-C86419B9-8A51-4947-B9B7-555E48E9A780Q27498817-FC913C32-1009-4804-9D90-94BE2BA0914BQ27671854-B16F1DF8-4192-4C1F-BE74-AA9D23FF7AD9Q27679196-6347C76E-B056-422B-A8A3-7C7BBF9C0A72Q28240090-E9D8BFC9-05AF-431C-91AB-B57780FE5F48Q28364696-7B370D2D-A5EE-4419-A3EA-DF7B0AEB7EC9Q33321931-0D67FF4E-D51B-47C5-A074-83946C872CA1Q34054930-1DEBABE4-8B79-4DB6-B4CB-CA6831755D6AQ34362552-C622ABDD-6CB2-4678-8F4F-C373B11101EEQ34362691-3A5654E5-D70A-4002-91C8-E5E49BC6D161Q34364582-B476B3F5-7357-4F43-83A7-01497D8FC126Q34426633-B3872C93-1F7A-4701-99C2-2ABD39E7C05FQ35040946-788687A7-A701-403D-B9E9-FCBD002FE8BFQ35197859-C8D956F3-7BBC-4F96-8D50-B5B9D82EF202Q35670060-95673A86-254A-49BD-AC29-73E864A7A898Q36128803-2D8FBCD2-8477-4421-98EB-88475831643AQ36598846-A1D9ABE3-3B59-410E-A34B-08A249AD4523Q36859298-6FB90083-FD4E-43B6-A96B-19EFE8D29A73Q37144723-FA29CD67-B45B-4B14-9BC0-C48EEBBA5611Q37219286-16B99F17-EEA2-4841-A32F-51EBE8FFB6E8Q37435105-FA020083-659B-483C-A646-A43AF528C569Q38352124-DAED747D-E9B2-42C2-BABE-1DA7AC7EEAA0Q39647190-2B0CC060-AAF0-4CC8-B678-B330A15793FFQ40637156-6A8E4EAC-382F-45B4-84E9-15B8DB3A0101Q40848247-2F7A8D4D-D955-4728-8168-57FF7486E56AQ41749632-58403ADF-F50D-46A3-8FFD-7E03782BED7CQ41838616-0D319989-6538-4EB2-BBAB-4600103650ECQ42155694-58D35FA9-AE1D-40B7-8ECE-A377091D4CBDQ42412663-4D1ED68D-26CE-45D0-87BC-3FA190C54B3FQ42679830-6C2AEE9B-67B9-435A-86B1-5A23823F2152Q43206867-1E846E24-C5C0-4B69-80F7-C75C8DA2FDE3Q43233285-51A6BA72-6456-4E3A-8132-C4993FDC94E7Q48232235-F49C1E66-BFEB-47DF-8B73-ABB28FDB1763
P2860
Thiophilic metal ion rescue of phosphorothioate interference within the Tetrahymena ribozyme P4-P6 domain.
description
1999 nî lūn-bûn
@nan
1999 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@ast
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@en
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@nl
type
label
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@ast
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@en
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@nl
prefLabel
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@ast
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@en
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@nl
P2860
P1433
P1476
Thiophilic metal ion rescue of ...... ahymena ribozyme P4-P6 domain.
@en
P2093
P2860
P304
P356
10.1017/S135583829999115X
P407
P577
1999-11-01T00:00:00Z