Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
about
Recent advances and opportunities in synthetic logic gates engineering in living cellsSynthetic biology outside the cell: linking computational tools to cell-free systemsDistributed classifier based on genetically engineered bacterial cell culturesDesign and analysis of LacI-repressed promoters and DNA-looping in a cyanobacteriumThe biological microprocessor, or how to build a computer with biological partsBacteriophage-based synthetic biology for the study of infectious diseases.A unified design space of synthetic stripe-forming networks.Modular, multi-input transcriptional logic gating with orthogonal LacI/GalR family chimeras.Principles of genetic circuit design.A 'resource allocator' for transcription based on a highly fragmented T7 RNA polymerase.Multi-input regulation and logic with T7 promoters in cells and cell-free systems.Combining random gene fission and rational gene fusion to discover near-infrared fluorescent protein fragments that report on protein-protein interactions.Multi-input distributed classifiers for synthetic genetic circuits.Layering genetic circuits to build a single cell, bacterial half adderEngineered temperature compensation in a synthetic genetic clock.Steps towards the synthetic biology of polyketide biosynthesis.Designer cell signal processing circuits for biotechnology.The timing of transcriptional regulation in synthetic gene circuits.Deconstruction of complex protein signaling switches: a roadmap toward engineering higher-order gene regulators.A split intein T7 RNA polymerase for transcriptional AND-logic.Preservation of protein expression systems at elevated temperatures for portable therapeutic production.Acyl Histidines: New N-Acyl Amides from Legionella pneumophila.Synthetic biology: the many facets of T7 RNA polymerase.A portable expression resource for engineering cross-species genetic circuits and pathways.Standardization in synthetic biology: an engineering discipline coming of age.Interfacing Neural Network Components and Nucleic Acids.Synthetic biology for microbial heavy metal biosensors.A sigma factor toolbox for orthogonal gene expression in Escherichia coli.Synthetic Biology and the Gut Microbiome.Toward an orthogonal central dogma.Development of cyclic AMP receptor protein-based artificial transcription factor for intensifying gene expression.Programmed hierarchical patterning of bacterial populations.Evolution of a split RNA polymerase as a versatile biosensor platform.Promoter and Terminator Discovery and Engineering.Continuous directed evolution of proteins with improved soluble expression
P2860
Q26781904-36CDD29F-06D4-407E-B6E6-6475A015FBCDQ28085024-D679FE3D-EECA-40A2-8F41-CA2291DF4D72Q28651614-8272CBFB-4892-4C33-B6C9-6DA411602D10Q28659192-CA5DBE64-2230-47F2-A71B-F7D8BC82440FQ28660797-E6647F7E-9424-4137-B6F5-620B82BB5AE4Q34017160-E480CBF9-5FFE-44AD-89EC-2A82CAC81389Q34234539-2DA29D70-A2A3-493A-8099-60A98D71D52FQ34408232-76E9294D-2C50-43A5-8AD8-ADCC056078CBQ34502550-3BFB8907-28BC-481E-9CBE-AD62E4F10345Q34986589-6C09F692-C1B5-4A98-BB9E-D599CEC6BFD9Q35032580-BC605146-2AE6-4069-B2D7-FFF073620D43Q35284348-DD16DA51-9C35-4827-AFAA-677BAB206193Q35623314-AF6824EB-973B-4BF5-BFF7-3BAD7AE90D8FQ35664673-AB81A959-8425-4F58-AC94-89CCF9E3D09EQ37519764-BB5BFAF6-3128-4414-833A-9CC66463695DQ38174180-12DBA539-2C32-44EB-B2C3-964B322474A0Q38314510-9C672EC3-AF0F-4179-AC53-2A8FFAE7D392Q38608345-0B2EF0D2-99AB-48A6-8824-7716F21ADA28Q39129495-2F5B5090-D96D-4D5F-B62F-50B20C317B70Q40225098-3688AB6D-AFEE-4D2F-B7A9-F3AB8C55AA03Q40226185-47A0B343-20F6-4DB3-A816-6C38B50F1D96Q40360554-617FB045-A75D-4236-9A44-1D48FB117C25Q41862681-6EA434B8-00E9-4E5C-AC95-3FB1AEF01AFEQ42402390-D35A4825-2134-4217-9A2E-5C19CFCE31D5Q42693584-AB59278F-67BD-44FA-BFBB-2445B2C915E3Q47115201-59A865D0-0B12-4590-A9BA-0B39100BAF72Q47304365-AE7A5014-FC13-46D8-8BA8-000056170301Q47716927-4B951938-FF08-4317-B724-32F0297C7941Q47915556-C881584E-6120-4CC7-9FFF-CDCECD5B1D76Q50026686-F2CA1FCB-4E69-496A-96C0-13EEF446A47DQ50041656-8C894112-C153-410A-9FCC-28FEB5DE7BD9Q50300046-5E9A3C26-46BE-49DF-8F88-A18AECB0A769Q51006974-199518CA-4417-4AB1-B0DF-A53EE6194648Q51299593-0AB4CC65-C16F-419E-B702-1C3AAD15CD5EQ56873918-E7021BDC-5B5B-4073-A089-C8FA30BDC0B5
P2860
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
description
2013 nî lūn-bûn
@nan
2013 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի մարտին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@ast
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@en
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@nl
type
label
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@ast
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@en
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@nl
prefLabel
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@ast
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@en
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@nl
P2860
P356
P1476
Library of synthetic transcriptional AND gates built with split T7 RNA polymerase mutants
@en
P2093
David L Shis
Matthew R Bennett
P2860
P304
P356
10.1073/PNAS.1220157110
P407
P577
2013-03-11T00:00:00Z