about
Molecular robots guided by prescriptive landscapes.Paradigms for computational nucleic acid designHigher-order cellular information processing with synthetic RNA devicesFrom DNA nanotechnology to synthetic biologyA thermodynamic approach to designing structure-free combinatorial DNA word sets.In vitro selection, characterization, and application of deoxyribozymes that cleave RNAA modular DNA signal translator for the controlled release of a protein by an aptamerArtificial Molecular MachinesBeyond DNA origami: the unfolding prospects of nucleic acid nanotechnologyHigh-precision, in vitro validation of the sequestration mechanism for generating ultrasensitive dose-response curves in regulatory networksBiophysically inspired rational design of structured chimeric substrates for DNAzyme cascade engineeringThe biological microprocessor, or how to build a computer with biological partsAn analysis of simple computational strategies to facilitate the design of functional molecular information processorsAutomatic design of digital synthetic gene circuitsA modern mode of activation for nucleic acid enzymes.Continuous variables logic via coupled automata using a DNAzyme cascade with feedbackSynthetic circuit for exact adaptation and fold-change detectionModelling amorphous computations with transcription networks.Diagnostic applications of nucleic acid circuitsExercises in molecular computing.Logic integration of mRNA signals by an RNAi-based molecular computerNucleic acid based logical systems.Synthetic biology: applications come of ageSynthetic biology.Signal propagation in multi-layer DNAzyme cascades using structured chimeric substratesShaping up nucleic acid computation.An autonomous molecular computer for logical control of gene expressionInterlocked DNA nanostructures controlled by a reversible logic circuit.All-DNA finite-state automata with finite memory.A bird's eye view tracking slow nanometer-scale movements of single molecular nano-assembliesConstruction of a fuzzy and Boolean logic gates based on DNA.Design of a biochemical circuit motif for learning linear functions.Logic reversibility and thermodynamic irreversibility demonstrated by DNAzyme-based Toffoli and Fredkin logic gatesDeoxyribozymes that recode sequence informationA library of programmable DNAzymes that operate in a cellular environment.Label-free, dual-analyte electrochemical biosensors: a new class of molecular-electronic logic gatesFull design automation of multi-state RNA devices to program gene expression using energy-based optimizationDemonstration of a universal surface DNA computerRational, modular adaptation of enzyme-free DNA circuits to multiple detection methodsA unified sensor architecture for isothermal detection of double-stranded DNA, oligonucleotides, and small molecules
P2860
Q24605627-DFE60A08-2CDB-4F8E-9F22-282B10FAB94AQ24613802-5F07FE7D-03DC-456E-80A3-676FD2183466Q24647524-4FB1AB8B-B521-47AF-A097-ECA420C1CA78Q24650577-B98BFB0E-3082-4C55-B67E-7FE4C5F4CCC3Q24811180-86FBEF67-4132-4F8D-A4EE-D0451A6FC975Q24817034-844683DF-5C2D-4755-9AFE-0988F018D091Q25256587-09F5C5A4-5C18-40F7-83A8-D5DF7A577362Q26783064-5042B6C4-9901-460C-88D2-17F4F7416160Q26822686-CACCC5B1-FBCF-4B00-BFAB-6E51E6A013D2Q28477385-4D5A790B-D517-49C5-9BB5-FF35241E8DB9Q28544406-733B638F-5ACC-4BD9-8EF5-2293B4207971Q28660797-9FB5979D-9524-4110-A3A4-431F8461C20CQ28820720-0637798A-249C-4D62-A7EB-D1E43572BEECQ31003282-FF18100E-1432-4937-BE09-1365D9771FB5Q33291764-17A606FF-B649-4819-B7D1-798C8ABDAE38Q33609664-C087131D-A966-407D-B057-D03B712E96A3Q33635520-D5FD9B6A-8F05-4FDE-A509-7A775F701B5EQ33747150-7D749567-C594-4BE7-9A29-A6A7038C4A12Q33777184-38FDC35B-E053-466B-9E55-53C52EB05E7AQ33777944-7C1746EC-C990-414A-B30D-DA9700812D15Q33812404-2171649C-F810-46D6-9C88-9AC9771CE064Q33908479-12098894-7CDB-46B7-8D31-6E9DB6373A09Q33958771-A59FD5D8-D3D8-48CD-8BD4-D3A1062606B7Q33988336-F4D73E13-D941-47AC-97DB-EAEE2ED47AA7Q34050264-98FD4F3B-CA9E-442E-BDDB-9DD340799E68Q34143014-9F2DF807-91AA-40A5-913D-B90185E04BD7Q34317280-E09304A3-0914-4F49-AFB9-F9577EFE0B92Q34348662-DA6E7D89-1CBA-4FFF-9F99-8ACA90B71C85Q34438535-D07F8847-FF91-4D79-A158-B26BD65E9BA2Q34454023-5B031800-73D2-43B9-866F-93013AB5E062Q34456894-321EECBC-1B2D-46AB-9C91-590809282D39Q34470495-EC0A767E-C401-4F46-93A4-3F5268FF2536Q34510038-E5CF0BA2-6C27-49F3-9D29-707126417395Q34575312-D0EB6268-3B22-4B7C-9738-ECC8BB601AAFQ34633523-FBF3A79A-79C2-40CB-91E4-0DFBDB833C44Q34858860-56A72062-149D-4185-B717-69CCB6CA5465Q34916607-F9AC9702-A639-40B4-B7BB-536E79048EF6Q35130738-10899284-0B42-42BF-880D-39D8E8CDEC37Q35198375-68486CD5-DEBD-444D-B272-BD87E8576D5AQ35576680-231FC8E5-06C9-4630-B3C0-3FB005050E5C
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
A deoxyribozyme-based molecular automaton.
@ast
A deoxyribozyme-based molecular automaton.
@en
A deoxyribozyme-based molecular automaton.
@nl
type
label
A deoxyribozyme-based molecular automaton.
@ast
A deoxyribozyme-based molecular automaton.
@en
A deoxyribozyme-based molecular automaton.
@nl
prefLabel
A deoxyribozyme-based molecular automaton.
@ast
A deoxyribozyme-based molecular automaton.
@en
A deoxyribozyme-based molecular automaton.
@nl
P356
P1433
P1476
A deoxyribozyme-based molecular automaton.
@en
P2093
Darko Stefanovic
Milan N Stojanovic
P2888
P304
P356
10.1038/NBT862
P577
2003-08-17T00:00:00Z