In vitro splicing of the ribosomal RNA precursor of tetrahymena: Involvement of a guanosine nucleotide in the excision of the intervening sequence
about
Defining the chemical groups essential for Tetrahymena group I intron function by nucleotide analog interference mappingTurboFold: iterative probabilistic estimation of secondary structures for multiple RNA sequencesIntronic hammerhead ribozymes are ultraconserved in the human genomeAutocatalytic RNA cleavage in the human beta-globin pre-mRNA promotes transcription terminationEvolution of RNA-protein interactions: non-specific binding led to RNA splicing activity of fungal mitochondrial tyrosyl-tRNA synthetasesThe significance of Mg in prebiotic geochemistryIntrons and the origin of nucleus-cytosol compartmentalizationHow a chemist looks at RNA.Representation of the secondary and tertiary structure of group I introns.Minor groove recognition of the conserved G.U pair at the Tetrahymena ribozyme reaction site.Therapeutic potential of ribozymes in haematological disorders.Current status of ribozymes as gene therapy agents for cancer.Crystal structure of a self-splicing group I intron with both exons.Prebiotic RNA synthesis by montmorillonite catalysisTelomerase as a therapeutic target for malignant gliomas.Conditions for the emergence of life on the early Earth: summary and reflections.RNAi-based therapeutics-current status, challenges and prospectsDesign and Experimental Evolution of trans-Splicing Group I Intron Ribozymes.Pathological significance of vascular endothelial growth factor A isoform expression in human cancer.The involvement of RNA in ribosome function.Biologically important reactions catalyzed by RNA molecules.Therapeutic gene silencing in the nervous system.Engineered ribozymes as molecular tools for site-specific alteration of RNA sequence.Expression and in vitro cleavage activity of anti-caspase-7 hammerhead ribozymes.The ribosomal peptidyl transferase center: structure, function, evolution, inhibition.A protein encoded by a group I intron in Aspergillus nidulans directly assists RNA splicing and is a DNA endonuclease.RNA as a versatile and powerful platform for engineering genetic regulatory tools.Purine sensing by riboswitches.Therapeutic applications of aptamers.Fabrication of pRNA nanoparticles to deliver therapeutic RNAs and bioactive compounds into tumor cells.Capturing RNA Folding Free Energy with Coarse-Grained Molecular Dynamics Simulations.Opportunities for yeast metabolic engineering: Lessons from synthetic biology.Finding aptamers and small ribozymes in unexpected places.Regulatory RNAs: charming gene management styles for synthetic biology applications.The base sequence dependent flexibility of linear single-stranded oligoribonucleotides correlates with the reactivity of the phosphodiester bond.Cleavage of RNA oligonucleotides by aminoglycosides.DNA enzymes as potential therapeutics: towards clinical application of 10-23 DNAzymes.Ligand-dependent ribozymes.Rescue of recombinant Newcastle disease virus: current cloning strategies and RNA polymerase provision systems.Role of microRNAs on the Regulation of Mitochondrial Biogenesis and Insulin Signaling in Skeletal Muscle.
P2860
Q24569590-35ED2B4C-B97B-43EA-8D02-862BB31965B6Q24608886-5A63A5E6-4836-4000-B7DA-08883E51BD54Q24617160-418CBEDD-4D0A-4134-AF85-C71B0D37FCE5Q28295290-39E1176D-FEFC-4F76-A8BA-8C3D5B372162Q28542826-B0B2EBCB-9EF1-4CEE-B33C-118DEF07292FQ28710471-6861ED50-1561-4AFF-8988-5CD32549DA4BQ29618633-253C05FD-AC72-4A52-86FA-C36EE0CA774BQ30456295-801E82A8-E4AD-4AD3-97F0-44E6AACA2519Q30464009-601D4420-2239-45A0-9A99-4F2EBADF5DF6Q30465349-B2592440-8804-4237-BC7A-21494229BA3AQ34074840-F62B7CFC-9D23-49E3-893E-E7B94C5DBAF1Q34311089-AE03E29E-4F99-42F9-945E-5071087C028EQ34324406-5864DB17-9774-4DAD-A58D-7D93D9A143DFQ34390402-073C03EC-F131-4B36-AB55-AC317D932DA1Q34535709-34DD210B-15B7-4CFE-911B-DD5A0AAAF3B9Q34569774-EF416B3C-B65C-42DC-9A20-7F026527BB95Q34659612-33DCA1E3-420B-4CC9-BA3F-182229B02871Q34680414-11DC92B9-DF19-43DF-A67E-7882EC4CE5A2Q34722935-1080A4F2-008E-4063-97DF-E459A31D0DBDQ34732208-8D69ABDB-845D-47F5-8EFE-8B37799E7A71Q34944339-CE35AA36-2508-4B36-AFD8-60BC7D46BACAQ35203194-021BA6B2-E9A9-4B6F-9441-F7D1307CA135Q35549357-BB744561-D808-450F-840A-EF07A697018DQ36066226-EC27871B-5F74-4AC9-A7F2-0E9A544FF8CFQ36300790-A5A045B7-9D1D-461C-B35D-6A61DBD64F87Q36546473-C74F83DF-7C12-44A5-9F64-B43ED605E4CAQ37024725-96914911-38BE-47F4-B6A1-E408C31912B0Q37029401-8530E415-697E-45C6-90AD-741F0B00B810Q37038988-A087D8E5-76C3-49BF-B3D2-A0EAFA88686CQ37442480-A9A8ED82-DD13-4A77-A336-0B0790A35751Q37744021-014D382D-3A11-4BD4-BE9C-C682782604B0Q37844002-DEAEB2D2-CB4F-4FDF-A646-B6DADA1CA4EDQ37919798-CDC8BF5F-D202-4F16-B9B2-2750F1A4F2B0Q38172811-E313C635-590F-45F6-8AC1-031A07A431BDQ38350782-089DF949-0907-4EF6-B2D0-E14CC14A6271Q38358167-0A5B14AB-C40E-45E1-9AE5-DC7D7148344FQ38378692-4B81B504-64BB-4894-B402-7AAD7783BAC9Q38968316-4711A9E4-B37F-45D1-9451-1C22EECD1774Q38970464-39090593-0628-432E-A3B9-B32C77182F2EQ38979526-3F708380-AE3D-4872-A043-62EABDE99F87
P2860
In vitro splicing of the ribosomal RNA precursor of tetrahymena: Involvement of a guanosine nucleotide in the excision of the intervening sequence
description
1981 nî lūn-bûn
@nan
1981 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1981 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1981年の論文
@ja
1981年論文
@yue
1981年論文
@zh-hant
1981年論文
@zh-hk
1981年論文
@zh-mo
1981年論文
@zh-tw
1981年论文
@wuu
name
In vitro splicing of the ribos ...... on of the intervening sequence
@ast
In vitro splicing of the ribos ...... on of the intervening sequence
@en
type
label
In vitro splicing of the ribos ...... on of the intervening sequence
@ast
In vitro splicing of the ribos ...... on of the intervening sequence
@en
prefLabel
In vitro splicing of the ribos ...... on of the intervening sequence
@ast
In vitro splicing of the ribos ...... on of the intervening sequence
@en
P1433
P1476
In vitro splicing of the ribos ...... on of the intervening sequence
@en
P2093
Paula J. Grabowski
P304
P356
10.1016/0092-8674(81)90390-1
P407
P577
1981-12-01T00:00:00Z