Core requirements of the adenine riboswitch aptamer for ligand binding.
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Ligand recognition determinants of guanine riboswitchesGuanine riboswitch variants from Mesoplasma florum selectively recognize 2'-deoxyguanosineFluorescence-Based Strategies to Investigate the Structure and Dynamics of Aptamer-Ligand ComplexesMutational Analysis of the Purine Riboswitch Aptamer Domain †A Structural Basis for the Recognition of 2′-Deoxyguanosine by the Purine RiboswitchAdaptive Ligand Binding by the Purine Riboswitch in the Recognition of Guanine and Adenine AnalogsRiboswitch structure: an internal residue mimicking the purine ligandStructural principles of nucleoside selectivity in a 2′-deoxyguanosine riboswitchNucleotides Adjacent to the Ligand-Binding Pocket are Linked to Activity Tuning in the Purine RiboswitchMetabolite recognition principles and molecular mechanisms underlying riboswitch functionChallenge of mimicking the influences of the cellular environment on RNA structure by PEG-induced macromolecular crowdingComparative study between transcriptionally- and translationally-acting adenine riboswitches reveals key differences in riboswitch regulatory mechanismsThe purine riboswitch as a model system for exploring RNA biology and chemistryEvaluating our ability to predict the structural disruption of RNA by SNPs.Structure-guided mutational analysis of gene regulation by the Bacillus subtilis pbuE adenine-responsive riboswitch in a cellular context.Constitutive regulatory activity of an evolutionarily excluded riboswitch variant.Structure, dynamics, and mechanism of the lead-dependent ribozyme.A loop loop interaction and a K-turn motif located in the lysine aptamer domain are important for the riboswitch gene regulation control.Basis for ligand discrimination between ON and OFF state riboswitch conformations: the case of the SAM-I riboswitch.Biophysical Approaches to Bacterial Gene Regulation by Riboswitches.Effects of Mg2+ on the free energy landscape for folding a purine riboswitch RNA.The cellular environment stabilizes adenine riboswitch RNA structurePurine sensing by riboswitches.Structure and mechanism of purine-binding riboswitches.The long and the short of riboswitches.Ligand-dependent folding of the three-way junction in the purine riboswitch.Metal-ion binding and metal-ion induced folding of the adenine-sensing riboswitch aptamer domain.Ligand-induced stabilization of the aptamer terminal helix in the add adenine riboswitch.Loop-loop interaction in an adenine-sensing riboswitch: a molecular dynamics studyMechanisms for differentiation between cognate and near-cognate ligands by purine riboswitches.Folding of the lysine riboswitch: importance of peripheral elements for transcriptional regulation.MD simulations of ligand-bound and ligand-free aptamer: molecular level insights into the binding and switching mechanism of the add A-riboswitchGene expression control by Bacillus anthracis purine riboswitches.Single-molecule chemical denaturation of riboswitches.Allosteric mechanism of the V. vulnificus adenine riboswitch resolved by four-dimensional chemical mapping.
P2860
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P2860
Core requirements of the adenine riboswitch aptamer for ligand binding.
description
2007 nî lūn-bûn
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2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Core requirements of the adenine riboswitch aptamer for ligand binding.
@ast
Core requirements of the adenine riboswitch aptamer for ligand binding.
@en
type
label
Core requirements of the adenine riboswitch aptamer for ligand binding.
@ast
Core requirements of the adenine riboswitch aptamer for ligand binding.
@en
prefLabel
Core requirements of the adenine riboswitch aptamer for ligand binding.
@ast
Core requirements of the adenine riboswitch aptamer for ligand binding.
@en
P2860
P356
P1433
P1476
Core requirements of the adenine riboswitch aptamer for ligand binding.
@en
P2093
Daniel A Lafontaine
Jean-François Lemay
P2860
P304
P356
10.1261/RNA.142007
P407
P577
2007-01-02T00:00:00Z