Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
about
Viroids: from genotype to phenotype just relying on RNA sequence and structural motifsIdentification of hammerhead ribozymes in all domains of life reveals novel structural variationsHammerhead-mediated processing of satellite pDo500 family transcripts from Dolichopoda cave crickets.Plant pathogenic RNAs and RNA catalysisViroids: an Ariadne's thread into the RNA labyrinthYeast transcripts cleaved by an internal ribozyme provide new insight into the role of the cap and poly(A) tail in translation and mRNA decayCircular RNAs: relics of precellular evolution?Efficient ligation of the Schistosoma hammerhead ribozymeCharacterization of self-cleaving RNA sequences on the genome and antigenome of human hepatitis delta virusPeripheral regions of natural hammerhead ribozymes greatly increase their self-cleavage activityRedesigned and chemically-modified hammerhead ribozymes with improved activity and serum stabilityX-ray crystallographic observation of "in-line" and "adjacent" conformations in a bulged self-cleaving RNA/DNA hybrid.Structure-function analysis of the ribozymes of chrysanthemum chlorotic mottle viroid: a loop-loop interaction motif conserved in most natural hammerheadsNew classes of self-cleaving ribozymes revealed by comparative genomics analysisSelf-assembly Controls Self-cleavage of HHR from ASBVd (-): a Combined SANS and Modeling StudyRetrozymes are a unique family of non-autonomous retrotransposons with hammerhead ribozymes that propagate in plants through circular RNAsA ribozyme that triphosphorylates RNA 5'-hydroxyl groupsCircularity and self-cleavage as a strategy for the emergence of a chromosome in the RNA-based protocellA short double-stranded RNA motif of Peach latent mosaic viroid contains the initiation and the self-cleavage sites of both polarity strandsRNA-mediated ligation of self-cleavage products of a Neurospora mitochondrial plasmid transcriptEffects of substrate structure on the kinetics of circle opening reactions of the self-splicing intervening sequence from Tetrahymena thermophila: evidence for substrate and Mg2+ binding interactionsThe self-cleaving domain from the genomic RNA of hepatitis delta virus: sequence requirements and the effects of denaturant.A hammerhead ribozyme allows synthesis of a new form of the Tetrahymena ribozyme homogeneous in length with a 3' end blocked for transesterification.High-performance liquid chromatography purification of homogenous-length RNA produced by trans cleavage with a hammerhead ribozymeEggplant latent viroid, the candidate type species for a new genus within the family Avsunviroidae (hammerhead viroids)Deep sequencing of viroid-derived small RNAs from grapevine provides new insights on the role of RNA silencing in plant-viroid interaction.Discovery of replicating circular RNAs by RNA-seq and computational algorithms.Processing of nuclear viroids in vivo: an interplay between RNA conformations.A viroid RNA with a specific structural motif inhibits chloroplast development.Deep sequencing of the small RNAs derived from two symptomatic variants of a chloroplastic viroid: implications for their genesis and for pathogenesis.Phylogenetic footprinting of non-coding RNA: hammerhead ribozyme sequences in a satellite DNA family of Dolichopoda cave crickets (Orthoptera, Rhaphidophoridae)Stereoselective arginine binding is a phylogenetically conserved property of group I self-splicing RNAs.The virtues of self-binding: high sequence specificity for RNA cleavage by self-processed hammerhead ribozymes.Folding and catalysis by the hairpin ribozyme.Arabidopsis thaliana has the enzymatic machinery for replicating representative viroid species of the family PospiviroidaeViroids with hammerhead ribozymes: some unique structural and functional aspects with respect to other members of the group.Existence of efficient divalent metal ion-catalyzed and inefficient divalent metal ion-independent channels in reactions catalyzed by a hammerhead ribozymeEggplant latent viroid: a friendly experimental system in the family Avsunviroidae.Therapeutic potential of ribozymes in haematological disorders.Hidden ribozymes in eukaryotic genome sequence
P2860
Q21131141-34BCFD38-9F15-4D35-B839-2856B7E25D0BQ21145325-4F7CA012-D1D5-41E8-8656-64576DC3A9A9Q24523944-56B753EA-B8D7-41BA-918E-9449412383B8Q24544987-0F888498-3D83-456D-B77B-C144B7025939Q24548293-98E8D512-FE34-4326-B98F-2F602650B1B3Q24548790-D1F8E4EC-47E8-4E9D-B97F-A4D3A26B4F14Q24602170-A87FAFDD-3768-445A-9E45-F9B5794EDAD7Q24633570-ECF919B7-E50E-4A41-B8B0-D9602DF23429Q24651423-C808EA60-BF83-4ACC-BD29-E541E56B8CF4Q24679814-FC9679D3-666D-4306-B232-D4739C7C0345Q24803677-EAC7F223-D998-436D-97EA-BD3CC8A52F19Q27631575-3C363698-8419-4360-9103-C5104D05A79EQ27653015-D99C14F8-3E86-468A-8DED-FB5123DD3B84Q28314889-37790581-B0A4-46BE-ACDF-A40614B80AB7Q28595889-B9567BAE-0E32-440D-86E8-08BACD3EF069Q28597482-D7F2E891-80DA-4B34-B7F6-3A3459D13760Q28660141-6973C7F6-0948-4C4D-A3EB-5E360818BF36Q28681174-06A5AF00-48EC-4AEF-B3C4-C08E549A3D64Q28769325-6C56327E-CD5B-43D4-BE26-AFEED934850FQ28775802-309631D2-DF2F-4FC0-A5E6-B469E47A8B6FQ28776322-57078DAE-E0FC-4184-A2C7-EF0C0643FBA7Q29306762-CFDC5628-A9F9-413C-90FB-9AA741AD8C5CQ30439651-E726A479-6860-45AA-BC8C-49B433EA0A4BQ30778211-D5B14B52-DE3D-475A-B59B-EAF541037C28Q30792802-F32B113C-6BF4-4097-9017-94A2BF258844Q30877483-F2E5E140-6A02-4B5D-B363-6F86AA6AC29EQ30877994-08BF245A-A5B6-4367-B1CB-CC051F01CE02Q33308248-661C44AB-0979-498C-85F8-C3130FAF4ED9Q33344907-2E7BDF49-C63A-4797-82AA-D16A1267F6A9Q33511754-7F61195B-FE91-4331-B2E0-447DFF91F6D5Q33521766-DD8FA303-F3B9-4F8E-81D2-C89CFAB39F24Q33609738-231C91A0-A9B0-4626-AB53-CCE4B6469BDDQ33614060-29983494-E547-49F1-A11D-0D1E2C33ED5AQ33665549-EAED2A5E-E709-4A96-AB09-0184DA5631B1Q33697526-4CCB1540-11D6-4467-9D3C-C6F475A5F990Q33737260-B91FE551-29D5-4ABB-B9BE-08A814E3B09EQ33891801-EE129504-63A3-469C-97DE-43156CE339BCQ34045702-1828C28F-2E5E-4982-A82A-DD3D4F9CC15AQ34074840-B7D62BE9-F2BF-4EEC-AC6C-BEA4438F3B85Q34175513-7C238FD3-7FA2-41B0-8144-DC23A8B74A01
P2860
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
description
1986 nî lūn-bûn
@nan
1986 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1986 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
name
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@ast
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@en
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@nl
type
label
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@ast
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@en
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@nl
prefLabel
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@ast
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@en
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@nl
P2093
P2860
P3181
P356
P1476
Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid
@en
P2093
A C Forster
C J Hutchins
P D Rathjen
R H Symons
P2860
P304
P3181
P356
10.1093/NAR/14.9.3627
P407
P577
1986-05-12T00:00:00Z