Characteristics of the glmS ribozyme suggest only structural roles for divalent metal ions.
about
New families of human regulatory RNA structures identified by comparative analysis of vertebrate genomesA widespread riboswitch candidate that controls bacterial genes involved in molybdenum cofactor and tungsten cofactor metabolismStructural investigation of the GlmS ribozyme bound to Its catalytic cofactorGuanine riboswitch variants from Mesoplasma florum selectively recognize 2'-deoxyguanosineMechanism of mRNA destabilization by the glmS ribozymeRequirement of Helix P2.2 and Nucleotide G1 for Positioning the Cleavage Site and Cofactor of the glmS RibozymeAn in vitro evolved glmS ribozyme has the wild-type fold but loses coenzyme dependenceChemistry and Biology of Self-Cleaving RibozymesMetabolite recognition principles and molecular mechanisms underlying riboswitch functionBackbone and nucleobase contacts to glucosamine-6-phosphate in the glmS ribozymeThe glmS ribozyme: use of a small molecule coenzyme by a gene-regulatory RNASmall self-cleaving ribozymesMetal ions: supporting actors in the playbook of small ribozymes.Deciphering the role of glucosamine-6-phosphate in the riboswitch action of glmS ribozymeA widespread self-cleaving ribozyme class is revealed by bioinformatics.Biochemical analysis of hatchet self-cleaving ribozymes.The structural and functional diversity of metabolite-binding riboswitchesRole of the active site guanine in the glmS ribozyme self-cleavage mechanism: quantum mechanical/molecular mechanical free energy simulationsDetermining structures of RNA aptamers and riboswitches by X-ray crystallography.Analysis of metal ion dependence in glmS ribozyme self-cleavage and coenzyme bindingDNA as a versatile chemical component for catalysis, encoding, and stereocontrolThe intricate world of riboswitchesImproved native affinity purification of RNA.The poly(A) site sequence in HDV RNA alters both extent and rate of self-cleavage of the antigenomic ribozymeGenetic control by cis-acting regulatory RNAs in Bacillus subtilis: general principles and prospects for discovery.Toward reprogramming bacteria with small molecules and RNA.Ribozyme catalysis revisited: is water involved?The role of biomacromolecular crowding, ionic strength, and physicochemical gradients in the complexities of life's emergence.One RNA aptamer sequence, two structures: a collaborating pair that inhibits AMPA receptorsActivity, folding and Z-DNA formation of the 8-17 DNAzyme in the presence of monovalent ions.Identification of catalytic metal ion ligands in ribozymes.Modulating RNA structure and catalysis: lessons from small cleaving ribozymes.Nucleic acid catalysis: metals, nucleobases, and other cofactors.In vitro selection and characterization of cellulose-binding RNA aptamers using isothermal amplificationMetal-ion binding and metal-ion induced folding of the adenine-sensing riboswitch aptamer domain.Interplay of 'induced fit' and preorganization in the ligand induced folding of the aptamer domain of the guanine binding riboswitch.Structural and Biochemical Properties of Novel Self-Cleaving Ribozymes.An active-site guanine participates in glmS ribozyme catalysis in its protonated stateExamination of the structural and functional versatility of glmS ribozymes by using in vitro selectionInverse thio effects in the hepatitis delta virus ribozyme reveal that the reaction pathway is controlled by metal ion charge density.
P2860
Q24632878-C59AD01A-ADFA-4D0E-B8A2-98BC8EF0C0B6Q24646968-4AE543A3-E3CC-4011-A9C7-392E0F6044AEQ24670513-87DE0F90-CE8C-496A-B39A-C3DEEEBDAD30Q24679588-8E7ED064-756F-4247-BC4C-4759ECE4E63FQ24680823-07D0D257-4A43-4D81-8463-89C548B47B24Q27647856-3D0AFEA0-3862-4235-83B9-42AB45F2DED7Q27680143-CCB7BD42-1975-4301-908C-7649E1F37979Q28087730-DD0178DA-E8B3-48C5-85E2-96521931740CQ28109611-2E724E09-E026-4EA8-8CF6-C6321290D064Q28240090-BCB61843-2598-4AFF-B65F-B82850319517Q28728642-D11DD7C2-8CB1-4D25-B940-DABD3B9B8448Q28749189-C34E8DF6-3DD2-413A-9EDE-0911E29D4B1BQ34225437-ECC49448-7650-4CDA-962D-BA45B2D0A6B0Q34370143-60DF70D5-3A45-4F9D-A274-596E2ADBF0E7Q34385600-0ED2FA9E-61C0-4223-947B-25D0698E7C14Q34494798-54884DAB-BCAC-4F7E-9FA4-3558A2027E40Q34965135-79D92D83-990F-43AB-8B96-CEB0E09C494CQ35020704-231CE6D4-4AE3-4EC8-98F5-212DF85D4916Q35164924-4EDDAADE-A56B-4E05-A7E7-F53787E5B367Q35650668-8888F146-EBDD-466E-A4A6-AED380960B8CQ35710979-8E8C4403-2E91-4D50-8AE1-DE5AB3583B8DQ35847087-BDE88065-2C7A-4AFC-8108-3B4EC5B5F266Q35902036-62BED291-DB22-40B7-9DB4-5C7932545464Q36676546-2EFD2E23-85EA-430C-BDE7-1369C668C933Q36768126-7A262EF2-0A07-4F1D-8EA0-E1ADE3A193CCQ36984456-858E632B-EB24-4C0C-B329-C90DEEBD503FQ37045038-B083177B-7D45-4D7C-B3AB-A690786EE4D6Q37232543-06EE41B2-2256-4DA7-A92A-1742C962B565Q37259070-3086E1AC-12E7-4C68-94FA-59ADB8AC03E0Q37395663-1D53C6DD-BD39-4989-B8EE-1FC9141EFB1BQ37570771-EBAC60CE-4509-4C69-9DCC-5D5CAA286DBBQ37589504-3A527FAF-DE2E-45AD-A4F2-7D26158B93ADQ38204496-D47BABEB-238C-41C8-AE3A-1CD20983F5C4Q38288349-E7C30226-75C8-48F8-85F2-1E451179629EQ38299358-FB443F0A-A177-485F-8ED3-1F500118AEAEQ38306435-DEF2B3FA-CBBD-4E34-8DB3-D3B2795766A4Q38820529-E57DCD8B-55D5-401F-838E-DF8329F367D8Q39016303-F34322EB-5629-41F7-8D62-899C37ED7EF8Q39080139-319683DD-8DC3-4D8F-93DE-09AE65304598Q39959277-A53A2D1C-6479-4757-AB25-ECA18CEBFB98
P2860
Characteristics of the glmS ribozyme suggest only structural roles for divalent metal ions.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Characteristics of the glmS ri ...... roles for divalent metal ions.
@en
Characteristics of the glmS ri ...... roles for divalent metal ions.
@nl
type
label
Characteristics of the glmS ri ...... roles for divalent metal ions.
@en
Characteristics of the glmS ri ...... roles for divalent metal ions.
@nl
prefLabel
Characteristics of the glmS ri ...... roles for divalent metal ions.
@en
Characteristics of the glmS ri ...... roles for divalent metal ions.
@nl
P2093
P2860
P356
P1433
P1476
Characteristics of the glmS ri ...... roles for divalent metal ions
@en
P2093
P2860
P304
P356
10.1261/RNA.2266506
P407
P577
2006-02-16T00:00:00Z