The influence of arm length asymmetry and base substitution on the activity of the 10-23 DNA enzyme.
about
A novel dengue virus detection method that couples DNAzyme and gold nanoparticle approachesSecondary structure and hybridization accessibility of hepatitis C virus 3'-terminal sequences.Biophysically inspired rational design of structured chimeric substrates for DNAzyme cascade engineeringEffect of deoxyribozymes targeting c-Jun on solid tumor growth and angiogenesis in rodentsLocked nucleoside analogues expand the potential of DNAzymes to cleave structured RNA targetsScreening of deoxyribozyme with high reversal efficiency against multidrug resistance in breast carcinoma cells.Controlling the function of DNA nanostructures with specific trigger sequences.Design of efficient DNAzymes against muscle AChR alpha-subunit cRNA in vitro and in HEK 293 cells.Deoxyribozymes and bioinformatics: complementary tools to investigate axon regeneration.Comparative study of DNA enzymes and ribozymes against the same full-length messenger RNA of the vanilloid receptor subtype I.Multiplex PCR to assay the effect of nucleic acid-based inhibitors on prothrombin transcript level.Kinetic and thermodynamic characterization of the RNA-cleaving 8-17 deoxyribozyme.RNA cleaving '10-23' DNAzymes with enhanced stability and activity.DNAzyme targeting c-jun suppresses skin cancer growth.Optimisation of the 10-23 DNAzyme-substrate pairing interactions enhanced RNA cleavage activity at purine-cytosine target sitesCleavage of intracellular hepatitis C RNA in the virus core protein coding region by deoxyribozymes.Novel Chemically-modified DNAzyme targeting Integrin alpha-4 RNA transcript as a potential molecule to reduce inflammation in multiple sclerosis.Selective DNAzyme-mediated cleavage of AChR mutant transcripts by targeting the mutation site or through mismatches in the binding arm.Turning the 10-23 DNAzyme on and off with light.
P2860
Q24288926-BA14B88F-C8D6-47F5-88B0-24D8B94D35A2Q27472901-1D5A2D66-764B-4C0D-99BD-B81330D76D31Q28544406-5C75DECB-6EF0-42A9-ACE4-C13B98523018Q28576276-D0F04281-A656-4638-9062-56579FB543B7Q33245746-F98BC7AD-CAF7-4E79-B068-0244408ED398Q35377339-BC300361-892F-4B72-8DC7-8C371AFCF212Q36555540-D16499DF-D1BD-4DE4-8861-0B9085172B1BQ37331642-DDB3D24C-A9D0-449F-99AC-ADC0D9AF19B2Q37970644-4D3E8993-11E2-41DF-AC72-5E511B7CD87EQ38293684-A7A2BB65-AD2C-4865-88BE-0A34CAA8B813Q38302636-045DE181-40D1-48F0-AF13-59946CFB369DQ38344759-103A639A-412A-4D0C-A1A8-D3B232D81F16Q38349558-8B3D79A1-DBC0-4ADD-AB60-6D4D7B3C1724Q39326899-E2DC7A38-F232-4DBB-9984-8ACD32186C7EQ39758686-F658999F-DFD5-4D2B-AA9A-91BE656F47AEQ40325245-12ADDAB3-ACB6-48CE-B51B-A57CED8E13F4Q41936932-D4DF0B88-88F0-40A7-B8AE-15BF176F0D56Q41981720-FE725839-3111-4539-9D5C-046DA219D2D4Q42287457-13329954-C6D5-449F-BBF3-BB4A55D09C57
P2860
The influence of arm length asymmetry and base substitution on the activity of the 10-23 DNA enzyme.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
The influence of arm length as ...... ivity of the 10-23 DNA enzyme.
@en
type
label
The influence of arm length as ...... ivity of the 10-23 DNA enzyme.
@en
prefLabel
The influence of arm length as ...... ivity of the 10-23 DNA enzyme.
@en
P2093
P1433
P1476
The influence of arm length as ...... tivity of the 10-23 DNA enzyme
@en
P2093
Hopkins TM
Witherington C
P304
P356
10.1089/OLI.1.2000.10.323
P577
2000-10-01T00:00:00Z