Possible anticodon sequences of tRNAHis, tRNAAsn, and tRNAAsp from Escherichia coli. Universal presence of nucleoside O in the first position of the anticodons of these transfer ribonucleic acid
about
Isolation of Q nucleoside precursor present in tRNA of an E. coli mutant and its characterization as 7-(cyano)-7-deazaguanosineEnzymatic synthesis of Q nucleoside containing mannose in the anticodon of tRNA: isolation of a novel mannosyltransferase from a cell-free extract of rat liverConfirmation of a second natural preQ1 aptamer class in Streptococcaceae bacteriaAn essential role for aspartate 264 in catalysis by tRNA-guanine transglycosylase from Escherichia coliStructural determinants for ligand capture by a class II preQ 1 riboswitchMolecular basis of cobalamin-dependent RNA modificationIdentification of four genes necessary for biosynthesis of the modified nucleoside queuosineStructure and function of preQ1 riboswitchesStructural analysis of a class III preQ1 riboswitch reveals an aptamer distant from a ribosome-binding site regulated by fast dynamicsA riboswitch selective for the queuosine precursor preQ1 contains an unusually small aptamer domainSingle transcriptional and translational preQ1 riboswitches adopt similar pre-folded ensembles that follow distinct folding pathways into the same ligand-bound structureSpectroscopic, steady-state kinetic, and mechanistic characterization of the radical SAM enzyme QueE, which catalyzes a complex cyclization reaction in the biosynthesis of 7-deazapurinesQueuine, The Q-Containing tRNAs and the Enzymes Responsible for Their FormationIdentification of Plasmodium falciparum apicoplast-targeted tRNA-guanine transglycosylase and its potential inhibitors using comparative genomics, molecular modelling, docking and simulation studiestRNA recognition of tRNA-guanine transglycosylase from a hyperthermophilic archaeon, Pyrococcus horikoshii.Transglycosylation: a mechanism for RNA modification (and editing?).Biosynthesis of pyrrolopyrimidines.On the physical basis for ambiguity in genetic coding interactions.Reticulocyte transfer RNA and hemoglobin synthesis.Biosynthesis of archaeosine, a novel derivative of 7-deazaguanosine specific to archaeal tRNA, proceeds via a pathway involving base replacement on the tRNA polynucleotide chain.Genetic analysis identifies a function for the queC (ybaX) gene product at an initial step in the queuosine biosynthetic pathway in Escherichia coli.Three-dimensional structure of hyper-modified nucleoside Q located in the wobbling position of tRNA.Expression of Shigella flexneri gluQ-rs gene is linked to dksA and controlled by a transcriptional terminator.The role of aspartic acid 143 in E. coli tRNA-guanine transglycosylase: insights from mutagenesis studies and computational modeling.Queuosine biosynthesis is required for sinorhizobium meliloti-induced cytoskeletal modifications on HeLa Cells and symbiosis with Medicago truncatula.Activation of transfer RNA-guanine ribosyltransferase by protein kinase C.The structural and functional diversity of metabolite-binding riboswitchesThe deazapurine biosynthetic pathway revealed: in vitro enzymatic synthesis of PreQ(0) from guanosine 5'-triphosphate in four stepsThe queuine micronutrient: charting a course from microbe to man.Chemical modification of cytosine residues of U6 snRNA with hydrogen sulfide (nucleosides and nucleotides. Part 49 [1]).Site-specific modification of Shigella flexneri virF mRNA by tRNA-guanine transglycosylase in vitroDetection of unique tRNA species in tumor tissues by Escherichia coli guanine insertion enzyme.Mechanism of suppression in Drosophila. VII. Correlation between disappearance of an isoacceptor of tyrosine tRNA and activation of the vermilion locusCorrelation between the presence of tRNA His GUG and the erythropoietic function in foetal sheep liver.Isolation of mammalian tRNAAsp and tRNATyr by lectin-Sepharose affinity column chromatography.The role of the guanine insertion enzyme in O-biosynthesis in Drosophila melanogasterSpecific replacement of Q base in the anticodon of tRNA by guanine catalyzed by a cell-free extract of rabbit reticulocytesThe nucleotide sequence of asparagine tRNA from Escherichia coli.Detection of nucleoside Q precursor in methyl-deficient E.coli tRNA.Distribution of the modified nucleoside Q and its derivatives in animal and plant transfer RNA's.
P2860
Q24612525-4AD3A898-A4F9-4098-A740-93D4760FDEDDQ24613497-4438B776-58C3-41AB-B3B1-13F54F515BC2Q24650494-0B111469-0A10-4049-8232-B1AA2EB20228Q27641818-AAF7C4DD-397E-462B-86CE-582A2A6C3515Q27681482-89CDC440-2EF3-4C65-9904-6DAE39F17C5FQ27728078-8408C6EB-7653-4019-B007-87727DE8307AQ28189890-B759B222-0788-48E9-B28D-49624D5B0119Q28239535-C4F6F6E1-C6A2-47A9-8C82-AD872E4857BFQ28263943-88ECD2C5-1DC9-4371-ADA4-169396113F02Q28294896-DF9F815F-E24C-44F3-B72F-1F9E366A8446Q28297873-6F142A50-CC0E-4617-BC04-199C208D31D1Q28488943-AC3E678B-231E-4860-B265-125F2754D65DQ29391758-D53DA491-7372-45D3-816A-6F5A9372AB6DQ30045790-5761914C-EC50-46D7-B96D-E2FAE6525CC2Q31520041-9879DAE9-D675-4293-8736-F5049A75ADC5Q33573979-E22856E7-7B49-4032-A219-13737760066DQ33616474-41D19DDF-22A4-4078-BCC2-567769DEC09CQ33959658-8AE70F1A-DA06-44B4-BE28-3290DCA71902Q34060568-4CCBB41A-2A8E-4293-9960-113CB76B783EQ34064981-B0D10CB6-E320-45AD-982C-39FE8CE7C3B5Q34077292-C7C8E184-BAB4-4C6F-BC16-F046AA3062EEQ34193273-85869392-58A7-4F08-92C4-A0BBE920F21EQ34303844-A891C057-00AA-4F35-ACFA-4E4FCEF5E0C6Q34351183-913248C9-B18B-41BA-810A-EE8B624E4A81Q34586583-B1311504-29BA-418F-846B-E7764C0770B4Q34760660-2D8DF742-DE26-4F9F-AE9F-2632247344FDQ34965135-679EEA9A-5459-46D7-9B19-D35309923C5CQ34974758-BDDF1D9F-2050-41F4-B549-A31D70EC2ED3Q35586012-FA8C30C0-0F89-497B-86A5-B5530DE1DAA1Q35686473-E6551FC3-ACFF-4901-8486-36BFAC4ADACDQ35945409-C76DB12B-EC41-44F6-AFAA-9E4F78848020Q35989905-37C8EB7C-6E51-4A8C-98DF-3D7B808DBFEAQ36172017-8D5F33B1-B80B-4674-8942-B8C90A270290Q36176712-10AE4311-E957-4269-92D1-48AA620CAF83Q36179888-88DF59EB-921B-4538-BC76-B65FB7DD117CQ36190127-1A05AFCD-C506-495D-BACA-779C62F375DBQ36200318-C16BA79F-0577-4217-AC48-7297CB72D2B4Q36202252-FC44C52B-C726-4CAA-8620-6711EF296113Q36203686-8109BEEC-3BEC-484F-BF9A-518368949A85Q36213966-725893BE-5653-4FC1-A71C-2B107BF49D7A
P2860
Possible anticodon sequences of tRNAHis, tRNAAsn, and tRNAAsp from Escherichia coli. Universal presence of nucleoside O in the first position of the anticodons of these transfer ribonucleic acid
description
1972 nî lūn-bûn
@nan
1972 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1972 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1972年の論文
@ja
1972年論文
@yue
1972年論文
@zh-hant
1972年論文
@zh-hk
1972年論文
@zh-mo
1972年論文
@zh-tw
1972年论文
@wuu
name
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@ast
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@en
type
label
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@ast
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@en
prefLabel
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@ast
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@en
P3181
P356
P1433
P1476
Possible anticodon sequences o ...... hese transfer ribonucleic acid
@en
P2093
Fumio Harada
Susumu Nishimura
P304
P3181
P356
10.1021/BI00752A024
P407
P577
1972-01-18T00:00:00Z