about
Substrate discrimination in RNase P RNA-mediated cleavage: importance of the structural environment of the RNase P cleavage siteRecognition of the spliceosomal branch site RNA helix on the basis of surface and electrostatic featuresUnderstanding nucleic acid-ion interactionsBiomolecular electrostatics and solvation: a computational perspectiveMetal ions and flexibility in a viral RNA pseudoknot at atomic resolutionMapping metal-binding sites in the catalytic domain of bacterial RNase P RNARNA folding and catalysis mediated by iron (II)Mg2+-induced triplex formation of an equimolar mixture of poly(rA) and poly(rU).Forced-unfolding and force-quench refolding of RNA hairpins.Prediction of RNA pseudoknots using heuristic modeling with mapping and sequential folding.Salt-dependent folding energy landscape of RNA three-way junction.Divalent ion competition reveals reorganization of an RNA ion atmosphere upon foldingDirect measurement of tertiary contact cooperativity in RNA foldingDissecting electrostatic screening, specific ion binding, and ligand binding in an energetic model for glycine riboswitch folding.Mechanical unfolding of RNA hairpins.Selecting RNA aptamers for synthetic biology: investigating magnesium dependence and predicting binding affinityMolecular crowding stabilizes folded RNA structure by the excluded volume effect.Nucleic acid helix stability: effects of salt concentration, cation valence and size, and chain lengthWater counting: quantitating the hydration level of paramagnetic metal ions bound to nucleotides and nucleic acids.Ionic interactions between PRNA and P protein in Bacillus subtilis RNase P characterized using a magnetocapture-based assayThe osmolyte TMAO stabilizes native RNA tertiary structures in the absence of Mg2+: evidence for a large barrier to folding from phosphate dehydration.Bidentate RNA-magnesium clamps: on the origin of the special role of magnesium in RNA folding.Molecular simulation studies of monovalent counterion-mediated interactions in a model RNA kissing loop.Ion-mediated nucleic acid helix-helix interactionsMg2+-RNA interaction free energies and their relationship to the folding of RNA tertiary structures.Linkage of cation binding and folding in human telomeric quadruplex DNA.Role of metal ions in the tetraloop-receptor complex as analyzed by NMRA quantitative Raman spectroscopic signal for metal-phosphodiester interactions in solutionA guide to ions and RNA structureRNA helix stability in mixed Na+/Mg2+ solutionThe ionic atmosphere around A-RNA: Poisson-Boltzmann and molecular dynamics simulations.RNA and its ionic cloud: solution scattering experiments and atomically detailed simulations.Assessment of metal-assisted nucleophile activation in the hepatitis delta virus ribozyme from molecular simulation and 3D-RISM.Mechanistic Analysis of Activation of the Innate Immune Sensor PKR by Bacterial RNAA magnesium-induced triplex pre-organizes the SAM-II riboswitch.Evidence for a thermodynamically distinct Mg2+ ion associated with formation of an RNA tertiary structureEffects of Mg2+ on the free energy landscape for folding a purine riboswitch RNA.Direct sequence detection of structured h5 influenza viral RNAComputational methods for biomolecular electrostatics.Electrostatic properties of cowpea chlorotic mottle virus and cucumber mosaic virus capsids
P2860
Q24791779-B8A528E1-D2E5-4703-90D9-70FCB8D4A3E4Q24792130-830546E1-A3B2-4037-8C11-250A421FE3ABQ26822427-FE51A514-D70B-46F5-BCC4-14F97D5F56CCQ26853115-EB1D1F81-FAD6-482C-8110-89CC8F64B557Q27638410-2772C76A-A337-4AFB-A959-AC0037D34501Q27653178-CBD72B3D-59E9-4B16-BAE2-E9475A9FFE45Q28484063-64EE5F57-FDAB-43F3-9B90-462E7A8A41A1Q30503575-ADEFF867-5D06-4DCB-8D1E-C83C714E936AQ33233771-A322DB13-D10A-433F-8C4E-222743032AF2Q33299471-0C652A79-726B-41B8-8079-1FF23F19990DQ33568362-E231D1FC-0F99-473F-A972-E17DD45D9DA9Q33635820-3F6FC9E2-42AF-4A44-A476-4F736AE91D13Q33715360-E695747E-0AEC-4777-A50D-21F139CA556CQ33749946-55997BEB-2A27-459D-9CA6-ED3AB336878AQ33784317-E9BC4C32-5B1B-4003-A91B-0CD5F40AC641Q33812374-BF1B44A8-83B5-42A7-AC36-62EA021ACEC5Q34003341-AD85474C-1E2C-4D93-8A50-40818A080CC1Q34354064-2BEEBDE9-E153-4572-99FB-2407BE9659B6Q34364220-BC0D0530-90EB-405A-BA34-156D7ED86370Q34366081-677DF796-A800-497D-A443-C351B6DC5E30Q34401587-10409B2F-7003-42CC-BD95-DD4A65E66CFDQ34497381-4066CAEB-5D08-4A45-A6D3-6341DCBDE7F4Q34669923-2003CC7C-FEE9-4F25-83D2-4BF32A7C86C8Q34698707-EA9C3BD3-6401-4169-88A7-F250DD6EF142Q35080409-2A2DA81E-4BD1-4D77-98CC-E2F0B0D79C97Q35196327-6DCF5C58-185A-4650-8679-C4B50F5CC495Q35230524-A2583533-D324-412B-94AF-F04472B67336Q35634772-1C3D3847-1685-4A20-AF05-A25031BB32EDQ35670060-5524D362-627B-4E68-A926-2F17CFA7746BQ35753774-3B214D23-566D-4EB0-B5D1-1D19E005A4A4Q35769851-EF278160-72C5-440F-BE15-BA42983077A0Q35769969-FF4AD255-493D-4EFC-8054-ED5640182769Q35952771-13C84B9A-D2AE-4E14-8CDA-0DDD7265676EQ36219933-DC7C782C-3A6B-4AE8-BC67-00130BA05E93Q36293837-9B281952-4F79-414C-8F49-2D98AC0D4FD2Q36420588-C119298A-D86B-4356-8553-433BFBA2D8D5Q36425977-7F61F05D-5C96-4BB9-A8F1-F886DB2E7428Q36579628-5F63AFB2-5A0B-45F0-B2E0-6AD07B850F35Q36712976-425497E2-2946-4E67-BC57-06970FA40375Q36737350-C14943B6-DC13-4DF2-8868-3CCD1E92A6E8
P2860
description
2001 nî lūn-bûn
@nan
2001 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
A thermodynamic framework for Mg2+ binding to RNA.
@ast
A thermodynamic framework for Mg2+ binding to RNA.
@en
type
label
A thermodynamic framework for Mg2+ binding to RNA.
@ast
A thermodynamic framework for Mg2+ binding to RNA.
@en
prefLabel
A thermodynamic framework for Mg2+ binding to RNA.
@ast
A thermodynamic framework for Mg2+ binding to RNA.
@en
P2860
P356
P1476
A thermodynamic framework for Mg2+ binding to RNA.
@en
P2093
P2860
P304
12456-12461
P356
10.1073/PNAS.221234598
P407
P577
2001-10-01T00:00:00Z