about
Engineering BioBrick vectors from BioBrick partsThe Bacillus subtilis sin operon: an evolvable network motifExploring protein fitness landscapes by directed evolutionSynthetic conversion of a graded receptor signal into a tunable, reversible switchProtein sequestration generates a flexible ultrasensitive response in a genetic networkEnvironmental signal integration by a modular AND gateSynthetic biology: new engineering rules for an emerging disciplineTranscription factor-based biosensors enlightened by the analytePredicting translation initiation rates for designing synthetic biologySynthetic biology outside the cell: linking computational tools to cell-free systemsSynthetic gene networks that countAdvances and computational tools towards predictable design in biological engineeringProgrammable ligand detection system in plants through a synthetic signal transduction pathwayAutomatic compilation from high-level biologically-oriented programming language to genetic regulatory networksProgramming cells: towards an automated 'Genetic Compiler'Molecular Buffers Permit Sensitivity Tuning and Inversion of Riboswitch SignalsHigh-Yield, Zero-Leakage Expression System with a Translational Switch Using Site-Specific Unnatural Amino Acid IncorporationForcefield_PTM:Ab InitioCharge and AMBER Forcefield Parameters for Frequently Occurring Post-Translational ModificationsSpatiotemporal control of gene expression with pulse-generating networks.Evolutionary potential of a duplicated repressor-operator pair: simulating pathways using mutation data.Laboratory-directed protein evolutionIPRO: an iterative computational protein library redesign and optimization procedurePlasticity of the cis-regulatory input function of a geneTranscriptional regulation by competing transcription factor modulesOptCircuit: an optimization based method for computational design of genetic circuits.Construction and enhancement of a minimal genetic and logic gateDiversity-based, model-guided construction of synthetic gene networks with predicted functions.Design principles for riboswitch function.Beyond directed evolution: Darwinian selection as a tool for synthetic biology.Engineered microbial biosensors based on bacterial two-component systems as synthetic biotechnology platforms in bioremediation and biorefinery.Mathematical modeling of translation initiation for the estimation of its efficiency to computationally design mRNA sequences with desired expression levels in prokaryotes.Design, construction and characterization of a set of insulated bacterial promotersOn schemes of combinatorial transcription logicExperimental Evolution Reveals Favored Adaptive Routes to Cell Aggregation in YeastNonlinear protein degradation and the function of genetic circuitsRobust synthetic gene network design via library-based search method.Computational design of synthetic regulatory networks from a genetic library to characterize the designability of dynamical behaviorsReiterative Recombination for the in vivo assembly of libraries of multigene pathways.Selection of chromosomal DNA libraries using a multiplex CRISPR systemOptimal identification of biochemical reaction networks.
P2860
Q21202064-1B6F1767-19A8-4CC4-B432-0493EBCBAE7FQ24544957-43A9A382-C83A-4192-AAA7-FC4E8562F5B5Q24630945-23877788-7D4C-48DD-BB62-BF52B8D1BF0BQ24634044-DDC2B6A7-131C-4A97-83DE-88EDAC4B41E4Q24647718-377C4696-5896-4B55-AF2B-79F78F3A36EBQ24670375-6FD0BD5E-CF5B-40EA-9A15-B15461B84DD5Q24672399-3B4FBE6E-63EA-423D-AA7B-E627801BE739Q26802012-0D467F76-696E-42C4-A602-6C43D2755CD6Q26991685-CEC73C38-036E-4DB5-9A4A-76F505ED24CAQ28085024-D0B68F0A-A840-4955-8CC8-D75AF2408E56Q28246672-89B16FA1-EB40-4EFE-B11E-5C2C427CF4E9Q28246745-C13DB89B-4796-47D8-8C5E-7CCBA9E45E78Q28476817-71A0CCF7-2CF1-41D8-9F0A-C724246F4172Q28741726-6D2E26A2-4037-4000-85CE-1C40CA04C564Q28748996-F6714A97-39E4-44AA-9880-DF05C214AE61Q28829775-E9B6E560-C500-4C3E-A6E4-5DB0338E38D7Q29036647-E75EE34B-F545-4719-B0EC-E9427DDCFBAAQ30053209-B1F735C8-E8E3-4D9E-A06E-7ED1FAB1630AQ30579452-F6605DB0-39F9-4164-BD7E-8E17F34A1B10Q31042645-23D6C1B4-DE33-41B8-94E6-E44C591E8F12Q33222949-22065C4A-97C4-4389-8151-A32BBF0D378FQ33235333-52D9DECE-0EED-42A1-BE08-90B616D0823EQ33239285-9733711E-247C-44E6-A8B6-FDABDFE1C3B5Q33265217-BC3E844A-C5EA-4A9D-AFED-106FAE3F43C6Q33322237-D6CC7347-DBEC-4935-8D6C-C263508567D4Q33390292-39EC7370-862F-4DE4-A875-298A23CA627CQ33431823-C5819441-3ABE-4F5F-9768-E5970029221CQ33432715-399BAB11-351C-4B11-828E-A60DB0B7F12BQ33509838-31DE6308-6E20-4169-9929-BF29FC8C68DDQ33564662-A08B929F-D1B6-422A-AD82-F07D33FFD656Q33588067-B946D461-D93D-4943-B6E9-A29F679EE09EQ33693464-931AED8A-9A71-44E2-8CB8-60F1EE45735AQ33711386-1FDCA82E-3A7C-467F-A524-2ED2C9C1BA75Q33877449-A13C6160-905A-43EA-B235-BDD580647CEDQ33892231-1AA97038-F580-46DA-97FA-CFCD9A47E1A1Q33995378-8A049BBB-9529-437A-8CD4-DCE3AAB3C900Q34002167-270E9D26-09AC-4185-A24C-6C299AF2F8A0Q34005133-342D46B9-CC3B-43DD-A540-CDA806D92FFFQ34169565-CC132F8B-1040-4E74-B780-BC939D8223D3Q34184916-A1CB9B71-FD99-4441-9F40-00D7C14F87D1
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Directed evolution of a genetic circuit
@ast
Directed evolution of a genetic circuit
@en
type
label
Directed evolution of a genetic circuit
@ast
Directed evolution of a genetic circuit
@en
prefLabel
Directed evolution of a genetic circuit
@ast
Directed evolution of a genetic circuit
@en
P2860
P356
P1476
Directed evolution of a genetic circuit
@en
P2093
Yohei Yokobayashi
P2860
P304
16587-16591
P356
10.1073/PNAS.252535999
P407
P577
2002-11-25T00:00:00Z