Comparative study of DNA enzymes and ribozymes against the same full-length messenger RNA of the vanilloid receptor subtype I.
about
In vitro selection, characterization, and application of deoxyribozymes that cleave RNALocked nucleoside analogues expand the potential of DNAzymes to cleave structured RNA targetsEfficient silencing of gene expression by an ASON-bulge-DNAzyme complex.Novel approach to quantitative detection of specific rRNA in a microbial community, using catalytic DNA.A novel replicating circular DNAzyme.Screening of deoxyribozyme with high reversal efficiency against multidrug resistance in breast carcinoma cells.Targeting Highly Structured RNA by Cooperative Action of siRNAs and Helper Antisense Oligomers in Living CellsSlice me nice: DNAzymes get close to the heart.Inhibition of miR-21 in glioma cells using catalytic nucleic acidsDesign of efficient DNAzymes against muscle AChR alpha-subunit cRNA in vitro and in HEK 293 cells.Antisense oligonucleotide-based therapy in human erythropoietic protoporphyria.Theranostic DNAzymes.Systematic analysis of the role of target site accessibility in the activity of DNA enzymes.Kinetic and thermodynamic characterization of the RNA-cleaving 8-17 deoxyribozyme.RNA cleaving '10-23' DNAzymes with enhanced stability and activity.Zinc-binding sites in the N terminus of Mycoplasma arthritidis-derived mitogen permit the dimer formation required for high affinity binding to HLA-DR and for T cell activation.DNA enzymes as potential therapeutics: towards clinical application of 10-23 DNAzymes.siRNAs target sites selection of ezrin and the influence of RNA interference on ezrin expression and biological characters of osteosarcoma cells.Design of antisense oligonucleotides stabilized by locked nucleic acids.Comparison of different antisense strategies in mammalian cells using locked nucleic acids, 2'-O-methyl RNA, phosphorothioates and small interfering RNA.Cleavage of intracellular hepatitis C RNA in the virus core protein coding region by deoxyribozymes.Sequence-specific cleavage of RNA in the absence of divalent metal ions by a DNAzyme incorporating imidazolyl and amino functionalities.Novel Chemically-modified DNAzyme targeting Integrin alpha-4 RNA transcript as a potential molecule to reduce inflammation in multiple sclerosis.Sequence requirements in the catalytic core of the "10-23" DNA enzyme.The synthesis and properties of oligoribonucleotide-spermine conjugates.Deletion analysis in the catalytic region of the 10-23 DNA enzyme.Prediction of hammerhead ribozyme intracellular activity with the catalytic core fingerprint.Intracellular production of DNA enzyme by a novel single-stranded DNA expression vector.Ezrin mRNA target site selection for DNAzymes using secondary structure and hybridization thermodynamics.Combination of a new generation of PNAs with a peptide-based carrier enables efficient targeting of cell cycle progression.Inability of DNAzymes to cleave RNA in vivo is due to limited Mg[Formula: see text] concentration in cells.The advantages of being locked. Assessing the cleavage of short and long RNAs by locked nucleic acid-containing 8-17 deoxyribozymes.Design of LNA-modified siRNAs against the highly structured 5' UTR of coxsackievirus B3.
P2860
Q24817034-D380D138-1FB8-4E16-A241-A6612806598BQ33245746-3D1EDC7C-1E82-4589-883B-35850B4CD1FEQ33872170-5635A0A9-9434-4B90-94CC-4069A8FF72F3Q33913341-7DB7E8DB-350A-40B2-A67B-8C6DE39C8358Q34325999-F19FB407-60F5-48D4-9956-168F2B943B51Q35377339-C106341E-BF2D-4B27-891E-EE1DF5C01852Q35756093-167AD5BB-BFD9-431B-9107-AB0437C867B6Q36535152-15DB1A48-841A-4CC4-BBA7-824FA5882D06Q36799623-F734B3B5-63C7-4780-9C95-70FD31DF220DQ37331642-3DAC65C6-7E0C-45CE-9765-1D1C96B96CCBQ37693360-3379E120-4F46-48FD-9B66-26CA56942660Q37738245-435B1BF7-B98D-4FC3-9965-E91B4D9C9E1EQ38317226-A54B860F-3CDC-496A-86F6-F428B3D721F1Q38344759-CF37BAB8-5760-4B97-9848-B8D8EA5754A3Q38349558-1ABB7163-02C8-47C3-B288-1981D2BF5F3FQ38355898-78DDABED-A776-4273-AEA5-241FCB12595BQ38378692-889C1681-34E8-4A4C-B395-7A0CBB853BDDQ39404757-277EC702-DEB3-4C99-B0C0-2EE8625017C7Q39600730-552A74B1-6E49-4378-BF5F-953E23648DD0Q39777950-BC0C9EB4-82C8-47B0-BB3B-98ED80571B8CQ40325245-5065D29E-C6A8-4B62-9E9E-9139B28DD207Q40773184-5F48A0F3-10B1-44E1-961A-70D7AFCC6C27Q41936932-50A95C60-2B79-4615-823E-B3754B283E22Q44111681-032AA285-1640-4007-92C9-C99F39C0FFFBQ44978971-D56A3A4F-50ED-484D-9E9C-987D4937A833Q45218421-96D04E67-204E-4EE1-A87E-92903D729CB2Q45602209-20B416F8-F2E6-4B6C-B3E0-0A0CEBFD715AQ45864985-78C60773-28A3-4B15-89E1-BDF5989DCF56Q45869957-F5F11A0C-8C32-43A7-8F95-266A9428C5B6Q45872650-7BB51F7F-539C-42FC-9613-F6ACD5149C9FQ47284783-B57C327B-6ED0-4177-8F5E-24B51A0CE83BQ52582539-ABEE3FDB-DA81-4EB8-A76D-C02E0BECF071Q52916660-4AE183DF-A007-4DD9-A365-D104151029E5
P2860
Comparative study of DNA enzymes and ribozymes against the same full-length messenger RNA of the vanilloid receptor subtype I.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh
2001年學術文章
@zh-hant
name
Comparative study of DNA enzym ...... vanilloid receptor subtype I.
@en
type
label
Comparative study of DNA enzym ...... vanilloid receptor subtype I.
@en
prefLabel
Comparative study of DNA enzym ...... vanilloid receptor subtype I.
@en
P2093
P2860
P356
P1476
Comparative study of DNA enzym ...... vanilloid receptor subtype I.
@en
P2093
Birgit Bieber
Jens Kurreck
Ricarda Jahnel
Volker A Erdmann
P2860
P304
P356
10.1074/JBC.M107206200
P407
P577
2001-12-20T00:00:00Z