Two functionally distinct steps mediate high affinity binding of U1A protein to U1 hairpin II RNA
about
sameAs
Molecular basis of RNA recognition by the human alternative splicing factor Fox-1Sequential dimerization of human zipcode-binding protein IMP1 on RNA: a cooperative mechanism providing RNP stabilityKinetic analysis of the role of the tyrosine 13, phenylalanine 56 and glutamine 54 network in the U1A/U1 hairpin II interactionThe role of positively charged amino acids and electrostatic interactions in the complex of U1A protein and U1 hairpin II RNADiscriminatory RNP remodeling by the DEAD-box protein DED1.DEAD-box RNA helicase Dbp4 is required for small-subunit processome formation and function.A binding mechanism in protein-nucleotide interactions: implication for U1A RNA bindingRecognition of essential purines by the U1A proteinRapid kinetics of iron responsive element (IRE) RNA/iron regulatory protein 1 and IRE-RNA/eIF4F complexes respond differently to metal ions.Comparative analyses of the thermodynamic RNA binding signatures of different types of RNA recognition motifs.Fundamental aspects of protein-protein association kineticsAutomated selection of aptamers against protein targets translated in vitro: from gene to aptamer.A 1536-well fluorescence polarization assay to screen for modulators of the MUSASHI family of RNA-binding proteins.Intrinsic flexibility of snRNA hairpin loops facilitates protein binding.A theoretical model for the regulation of Sex-lethal, a gene that controls sex determination and dosage compensation in Drosophila melanogasterSequence-specific binding of single-stranded RNA: is there a code for recognition?Affinity and specificity of protein U1A-RNA complex formation based on an additive component free energy modelPrediction of salt and mutational effects on the association rate of U1A protein and U1 small nuclear RNA stem/loop II.Dynamics of saxitoxin binding to saxiphilin c-lobe reveals conformational change.The role of the C-terminal helix of U1A protein in the interaction with U1hpII RNA.Assembly of functional ribonucleoprotein complexes by AU-rich element RNA-binding protein 1 (AUF1) requires base-dependent and -independent RNA contacts.Kinetic mechanism for the binding of eIF4F and tobacco Etch virus internal ribosome entry site rna: effects of eIF4B and poly(A)-binding protein.An Evolved RNA Recognition Motif That Suppresses HIV-1 Tat/TAR-Dependent Transcription.Kinetic and equilibrium binding characterization of aptamers to small molecules using a label-free, sensitive, and scalable platform.Novel approach to analyzing RNA aptamer-protein interactions: toward further applications of aptamers.Investigation of a conserved stacking interaction in target site recognition by the U1A protein.Synthetic RNA recognition motifs that selectively recognize HIV-1 trans-activation response element hairpin RNA.Tethered Function Assays as Tools to Elucidate the Molecular Roles of RNA-Binding Proteins.Conformationally restricted nucleotides as a probe of structure-function relationships in RNA.RNA folding pathways and the self-assembly of ribosomes.The role of RNA structure in the interaction of U1A protein with U1 hairpin II RNACharacterization of the dynamics of an essential helix in the U1A protein by time-resolved fluorescence measurements.Identification of functional domains in Arabidopsis thaliana mRNA decapping enzyme (AtDcp2).Single-stranded DNA binding of the cold-shock protein CspB from Bacillus subtilis: NMR mapping and mutational characterization.Thermodynamics and kinetics of Hsp70 association with A + U-rich mRNA-destabilizing sequences.RNA sequence elements required for high affinity binding by the zinc finger domain of tristetraprolin: conformational changes coupled to the bipartite nature of Au-rich MRNA-destabilizing motifs.Response to Comment on "Xist recruits the X chromosome to the nuclear lamina to enable chromosome-wide silencing".Characterisation of the RNA binding properties of the coronavirus infectious bronchitis virus nucleocapsid protein amino-terminal region.Role of Electrostatics in Protein-RNA Binding: The Global vs the Local Energy Landscape.Structure of HIV TAR in complex with a Lab-Evolved RRM provides insight into duplex RNA recognition and synthesis of a constrained peptide that impairs transcription
P2860
Q24540116-07C84A23-8880-4EAE-B372-6A49465958FAQ24563517-1C553A7C-8B0D-4C52-9A7C-6CECA194C8C5Q24794218-08E9EEB7-2E87-4354-97F9-2EE47218C3D5Q25257173-928D068B-A565-4318-ACA2-9E17D3983899Q27938511-968CDE5D-8A09-41AE-A7A7-E4B824A2350FQ30301078-91F996A8-57C1-4A86-8454-30246B868BE9Q30350329-262B5F2F-90A2-422F-A8F3-446F78FA3FC9Q33304888-DDB99801-D20F-4C07-B1D3-4F65793FA533Q33698494-5A6184B5-24C5-43BF-B52C-ADBDAAA5CEBEQ33741058-58CED447-B3ED-44ED-90F7-7E54B8DB341DQ33893739-D406AC34-5C96-42E9-B8F5-D5D3417B0F27Q33961951-CEFECFA5-64BA-401C-8E1D-171DAC2E6FF4Q34054941-F699127D-C2C4-469A-8762-AE41C8DA890CQ34421636-B8AFA69C-B90F-4B87-9E3C-3A5D94004BC5Q34618961-B738702E-CE1A-4A9E-B59E-F6C3A4FB2D90Q35128019-A2D1ABB0-201E-4E09-8F8E-E0FFF4EE492EQ36082576-A2DF8044-87D7-45FB-94C6-E137FB9D4025Q36479185-A7D9FDCB-EEDC-424E-883A-1E6FD0E6281EQ36488610-2923B1AA-32D1-4358-BFB4-4389E043F623Q37080320-EDD660C3-50DD-4A7F-B151-DD04D2C2A2E2Q37201249-0B523D9A-CF6E-42CC-A388-56E66FAB5AF9Q37467592-D59D88D0-AB03-4EB4-9C89-DD8150178630Q37544898-0F28E532-0A31-49EE-870B-FDC0490F9B39Q37696915-5ED8FB14-A8F7-4C3C-9BCB-96439150C6D2Q38312544-4CCEA119-9279-412C-8458-38B338EEC1F7Q39528266-5BD18A44-240F-4C65-9825-3DA8B09E9BF6Q40075637-770E3FE9-2769-48F0-B144-D3CDC81CFC4DQ40721662-ACF61F42-FD4F-428C-8028-E4A383BABD7CQ41210140-A8CB210D-6B94-4D6D-8BE2-5719F829FD59Q41615458-0A832393-6D93-429C-8407-D62FD8835670Q41626852-D12BECBE-D931-4F79-A165-80BE2A21E43DQ42123814-93C57A62-BD16-4548-81FA-9B0EC722E7D2Q43053445-05B9A60C-7010-429C-B444-17B4DC18A642Q43137278-CF1ABDB1-520D-4DA9-B1B8-A2683D608935Q43753632-3234EFF1-C142-477F-9D61-435601DEBE87Q44875465-64191D47-3DA6-443E-84B2-049757644A1AQ44916722-63B64164-306E-46B8-8516-AF7880F82588Q45410921-A21A212C-99EB-453F-92DF-3E59FE0620D5Q47956089-34C0F57A-312F-4DD1-9AB4-D88628611EEEQ56272235-3C7F6C70-59D2-4CA3-9D58-8AA402E7F6DA
P2860
Two functionally distinct steps mediate high affinity binding of U1A protein to U1 hairpin II RNA
description
2001 nî lūn-bûn
@nan
2001 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հունիսին 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
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@ast
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@en
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@nl
type
label
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@ast
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@en
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@nl
prefLabel
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@ast
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@en
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@nl
P2860
P356
P1476
Two functionally distinct step ...... A protein to U1 hairpin II RNA
@en
P2093
Laird-Offringa IA
P2860
P304
21476-21481
P356
10.1074/JBC.M101624200
P407
P577
2001-04-10T00:00:00Z