about
RNA tectonics (tectoRNA) for RNA nanostructure design and its application in synthetic biologyCrystal structure of 3WJ core revealing divalent ion-promoted thermostability and assembly of the Phi29 hexameric motor pRNAComputational and experimental characterization of RNA cubic nanoscaffolds.Modular and Chemically Responsive Oligonucleotide "Bonds" in Nanoparticle Superlattices.Enhancing immunomodulation on innate immunity by shape transition among RNA triangle, square and pentagon nanovehicles.Multistrand RNA secondary structure prediction and nanostructure design including pseudoknots.Ligand-responsive RNA mechanical switches.Crystal-Structure-Guided Design of Self-Assembling RNA Nanotriangles.RNAmap2D - calculation, visualization and analysis of contact and distance maps for RNA and protein-RNA complex structures.Triggering of RNA interference with RNA-RNA, RNA-DNA, and DNA-RNA nanoparticles.RNA modeling, naturallyRNA-Puzzles: a CASP-like evaluation of RNA three-dimensional structure predictionUniqueness, advantages, challenges, solutions, and perspectives in therapeutics applying RNA nanotechnology.Rolling Circle Transcription of Tandem siRNA to Generate Spherulitic RNA Nanoparticles for Cell Entry.Design and self-assembly of siRNA-functionalized RNA nanoparticles for use in automated nanomedicineRNA as a stable polymer to build controllable and defined nanostructures for material and biomedical applicationsSystemic Delivery of Anti-miRNA for Suppression of Triple Negative Breast Cancer Utilizing RNA Nanotechnology.Activation of different split functionalities on re-association of RNA-DNA hybridsRNAlyzer--novel approach for quality analysis of RNA structural models.Three-way junction conformation dictates self-association of phage packaging RNAsKinetic and thermodynamic framework for P4-P6 RNA reveals tertiary motif modularity and modulation of the folding preferred pathway.Ultrastable pRNA hexameric ring gearing hexameric phi29 DNA-packaging motor by revolving without rotating and coiling.An RNA folding motif: GNRA tetraloop-receptor interactions.RNA modularity for synthetic biology.Controllable self-assembly of RNA dendrimersOne-bead coarse-grained model for RNA dynamics.RNA as a boiling-resistant anionic polymer material to build robust structures with defined shape and stoichiometry.Advancement of the Emerging Field of RNA Nanotechnology.Design and Crystallography of Self-Assembling RNA Nanostructures.A quasi-cyclic RNA nano-scale molecular object constructed using kink turnsControllable Self-Assembly of RNA Tetrahedrons with Precise Shape and Size for Cancer Targeting.Diverse self-association properties within a family of phage packaging RNAs.Construction of RNA nanocages by re-engineering the packaging RNA of Phi29 bacteriophage.A structural module in RNase P expands the variety of RNA kinks.Assessment and comparison of thermal stability of phosphorothioate-DNA, DNA, RNA, 2'-F RNA, and LNA in the context of Phi29 pRNA 3WJ.Picomolar Fingerprinting of Nucleic Acid Nanoparticles Using Solid-State Nanopores.RNA-based micelles: A novel platform for chemotherapeutic drug loading and delivery.The Effect of Size and Shape of RNA Nanoparticles on Biodistribution.RNA versatility, flexibility, and thermostability for practice in RNA nanotechnology and biomedical applications.De novo design of an RNA tile that self-assembles into a homo-octameric nanoprism.
P2860
Q27022554-305040BC-3D57-44CC-A736-FA1142879765Q27679196-69543B92-DA8E-4159-9272-474A86E7C428Q33555910-DF711CBC-788F-4893-B395-2EA22BFAB71DQ33850611-39105A8A-5FF4-420C-BA85-E829AE74DC29Q34115320-97307900-0DA9-4F85-8DCB-22B9E4A25E9FQ34230869-DB91CD28-593F-4E53-AEA9-F4EA23AA2231Q34484231-76DC95A1-AF91-44E0-9F1A-CCB610917827Q34515666-C236C5A7-F918-4ED3-BD24-7AF35F566F13Q34520292-6517214D-D0EE-439C-867C-2B6DA8D7D527Q35027155-BE692BC9-42AE-44B7-B8B7-7991F3383499Q35778935-BEA0F3C5-C1A1-4601-AF29-31366F63F0C2Q35853409-7D593F59-37AB-4DAC-8285-EA420B0DE28DQ36184758-98499CAB-BA10-45F9-9CF6-F0CBFE119312Q36221569-341172BB-2E5E-41DB-89F9-3D898F441A58Q36401727-092FB2AB-5B54-4D2E-9B5E-7AAB27078EEAQ36449335-E8884E42-E253-4CA3-81CE-952F8A9B5EDAQ36490744-1C30AB69-27A1-4B89-8A0F-C43CBF48FA09Q36745494-7756EE1A-0E88-461B-8D12-C5E06D0D9732Q36963223-5033F66A-41CB-40F1-B67B-7FB0931D2BE5Q37130414-D9F432B8-0406-48A0-9253-0E826B018E84Q37213759-8B3AD3E0-5F78-4303-A84A-2FC807CB7CB5Q38107616-FF98F9A8-B9C2-44D8-A229-24F430F1AE44Q38126601-36526122-F6A6-485B-A261-2C6FB4A9D933Q38165944-45589922-BC73-4A35-8518-CA93D102C47DQ38812570-733F7EB4-1EB9-43D1-AC15-F7BAF2E216D5Q38986192-8EA77893-8B3E-42C3-91A1-FA47557C3BCCQ39008942-30B3A7B7-E42A-4B3F-9740-26900D9DC45CQ39065708-176CE95A-2EF7-40AF-A3AB-A29A42F84304Q40113810-1BA575E8-0F70-4567-8C60-89EA3C9DE3BFQ41411030-6185C2DF-BD94-490F-8A7B-03953CFB3192Q41432210-D3679BC2-0C9B-4B92-BE09-523F33D4F7ABQ41788557-7D601605-68A7-4ED1-A1F7-48462FAB031AQ42218319-45DE0AC6-CC1E-446E-BB42-8DF033D5C89AQ42636430-54BF31B6-7E15-4F44-9A7A-E7D55737E8F2Q47606680-8AEB6CCF-6D2C-4352-BEA5-8548B99FD413Q48174925-4F06937F-B05D-402B-AF59-9A4E51833430Q49904261-FD15F826-9765-44EC-98C6-80C4AB289CF0Q50061940-F402AF72-5174-47F4-9D79-4DE4DFB8AB05Q50144632-E9BD7C14-9A42-4AEB-8F6C-8B84C7817F37Q51663021-9A8DB567-2838-4BE4-B5B8-AA2E109E918C
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Self-assembling RNA square
@ast
Self-assembling RNA square
@en
Self-assembling RNA square
@nl
type
label
Self-assembling RNA square
@ast
Self-assembling RNA square
@en
Self-assembling RNA square
@nl
prefLabel
Self-assembling RNA square
@ast
Self-assembling RNA square
@en
Self-assembling RNA square
@nl
P2860
P3181
P356
P1476
Self-assembling RNA square
@en
P2093
Sergey M Dibrov
Thomas Hermann
P2860
P304
P3181
P356
10.1073/PNAS.1017999108
P407
P577
2011-04-19T00:00:00Z