about
The distributions, mechanisms, and structures of metabolite-binding riboswitchesAbundance and functional diversity of riboswitches in microbial communitiesRNA sensors: novel regulators of gene expressionRegulation of the vitamin B12 metabolism and transport in bacteria by a conserved RNA structural elementAn mRNA structure that controls gene expression by binding FMNA conserved RNA structure (thi box) is involved in regulation of thiamin biosynthetic gene expression in bacteriaDo mRNAs act as direct sensors of small molecules to control their expression?S-adenosylmethionine directly inhibits binding of 30S ribosomal subunits to the SMK box translational riboswitch RNAThe riboswitch-mediated control of sulfur metabolism in bacteriaThe role of mRNA structure in bacterial translational regulationLinking aptamer-ligand binding and expression platform folding in riboswitches: prospects for mechanistic modeling and designA decade of riboswitchesStructural insights into ligand binding and gene expression control by an adenosylcobalamin riboswitchRNA thermometersRibozymes, riboswitches and beyond: regulation of gene expression without proteinsProspects for riboswitch discovery and analysisGene regulation by riboswitchesRiboswitch detection using profile hidden Markov models.The centrality of RNA for engineering gene expressionComparative study between transcriptionally- and translationally-acting adenine riboswitches reveals key differences in riboswitch regulatory mechanismsRepression of btuB gene transcription in Escherichia coli by the GadX protein.Translational control and Rho-dependent transcription termination are intimately linked in riboswitch regulation.The tetrapyrrole biosynthetic pathway and its regulation in Rhodobacter capsulatus.Computational analysis of riboswitch-based regulationThe purine riboswitch as a model system for exploring RNA biology and chemistryStructural features of metabolite-sensing riboswitches.TonB-dependent transporters: regulation, structure, and function.Temperature-controlled structural alterations of an RNA thermometer.Single-molecule conformational dynamics of a biologically functional hydroxocobalamin riboswitch.The structural and functional diversity of metabolite-binding riboswitchesSmall RNA regulators of translation: mechanisms of action and approaches for identifying new small RNAs.Another face of RNA: metabolite-induced "riboswitching" for regulation of gene expression.A kissing loop is important for btuB riboswitch ligand sensing and regulatory control.Transcriptional pausing coordinates folding of the aptamer domain and the expression platform of a riboswitch.Antibiotic drugs targeting bacterial RNAs.Dual-acting riboswitch control of translation initiation and mRNA decayFrom ribosome to riboswitch: control of gene expression in bacteria by RNA structural rearrangements.Genetic control by cis-acting regulatory RNAs in Bacillus subtilis: general principles and prospects for discovery.Toward reprogramming bacteria with small molecules and RNA.Complementation of Cobalamin Auxotrophy in Synechococcus sp. Strain PCC 7002 and Validation of a Putative Cobalamin Riboswitch In Vivo
P2860
Q21184134-EC558274-E187-4B56-A40C-AC95A6A3A7E7Q21266557-5C6BEEFD-0125-4DD2-B9D8-7067439B14C8Q24536070-9C2A4E99-FE64-4017-97CF-22401B829099Q24540210-0829B09B-BB41-42DB-B8EE-29F17859577AQ24541465-DCB9167C-D4AF-4C70-A0CB-7707F42F2ABAQ24555765-F225B09F-00DB-44B0-ABAC-6D72131C2DCEQ24555787-DD2E159C-AA30-48F4-B385-126AB0069701Q24677266-30100C2A-262E-4B9F-8E6C-43B630A92B63Q24678031-6ECB57F1-5F9C-450B-A258-E6D375454CF5Q26746091-C5740127-2DCD-4D57-9DE1-6CE5EF943C9EQ26781454-B11438F5-8270-44C6-A483-4660C0A7F250Q27000960-64EF8EDE-66AE-48B0-8D76-E3DE827D6753Q27682800-522BBACF-17A8-4409-94AE-FA1665238AFAQ28293883-D98E06A0-CA12-4DC9-A7EF-4222CD913A24Q28603616-F80C4269-645D-4662-91E6-089F73146639Q28654385-8629CFC1-758E-4492-8001-3461DA984FF2Q29617439-4B38FB98-408E-4E45-9DF7-54519F0C63BDQ33509394-32DA4F65-574A-459A-BDA5-0555E82FA71FQ33661903-AC2830A3-D24B-407E-939A-771A8B97A77BQ33809385-684E2BD6-6E9F-446E-948F-2D6AF9C4D60EQ33818681-89EC9A8A-A051-48E4-A8A8-745E66DDA2D2Q33878214-7BB84341-AC88-4DC8-AD47-95BC682A224FQ33906420-439C18C8-6292-425D-94F5-04218C5E636BQ34105562-0AE53269-3B5E-470F-8BD1-55C993C52B56Q34105617-B511DD84-5D5B-4AB2-ABAD-DA30E5911A92Q34105926-7867F7CB-847E-4FB4-8299-B3597E3558E3Q34112189-EEB5CE5E-C6C9-4E0D-A36F-658409CDA091Q34229080-30187D2A-E282-4084-B5A7-E159EA913559Q34778344-258FF9A4-A18E-4C56-A04B-2031BDEB5B58Q34965135-F79B4409-65E9-4DFC-A0EE-92183EAF1148Q35133724-ACFD93C9-8858-47D4-B497-5DE5546B49B5Q35215167-2E8B6B78-591A-48BC-B4B8-F7B9DCA15022Q35775149-5FBDD3EE-28ED-46FD-BC36-E9938252F9E7Q35807600-3BAE3FF5-99D6-475A-8959-D7E7A783B3BBQ36237579-00F7C9AB-CCE3-47AE-AC98-60455C77402FQ36483634-79712A20-3483-4EC2-85B8-1C4D7BFF2598Q36648410-4D781BD9-A40C-4F34-A6C2-5ED65BAA42ABQ36768126-B33671BB-97A4-49DD-91E8-F4061D6D9D8EQ36984456-914CC7FC-C484-4EEB-95C5-174290DB6612Q37248286-A849190C-ED50-480F-9206-9117E3D3B5AF
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@ast
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@en
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@nl
type
label
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@ast
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@en
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@nl
prefLabel
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@ast
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@en
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@nl
P2860
P356
P1476
Adenosylcobalamin inhibits ribosome binding to btuB RNA
@en
P2093
P2860
P304
P356
10.1073/PNAS.130013897
P407
P577
2000-06-01T00:00:00Z