Engineering robust control of two-component system phosphotransfer using modular scaffolds.
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Protein Calligraphy: A New Concept Begins To Take ShapeEnzyme Sequestration as a Tuning Point in Controlling Response Dynamics of Signalling NetworksMolecular Buffers Permit Sensitivity Tuning and Inversion of Riboswitch SignalsGenetic circuit design automation.Effective molarity redux: Proximity as a guiding force in chemistry and biology.Design and implementation of a biomolecular concentration trackerPhosphate sink containing two-component signaling systems as tunable threshold devices.Using Sub-Network Combinations to Scale Up an Enumeration Method for Determining the Network Structures of Biological Functions.Rewiring MAP kinases in Saccharomyces cerevisiae to regulate novel targets through ubiquitinationConnecting the Sequence-Space of Bacterial Signaling Proteins to Phenotypes Using Coevolutionary Landscapes.Building robust functionality in synthetic circuits using engineered feedback regulation.A versatile framework for microbial engineering using synthetic non-coding RNAs.Mycobacterium tuberculosis universal stress protein Rv2623 interacts with the putative ATP binding cassette (ABC) transporter Rv1747 to regulate mycobacterial growth.Simple synthetic protein scaffolds can create adjustable artificial MAPK circuits in yeast and mammalian cells.Synthetic Protein Switches: Theoretical and Experimental Considerations.Core signalling motif displaying multistability through multi-state enzymes.Synthetic biology: the many facets of T7 RNA polymerase.Specificity residues determine binding affinity for two-component signal transduction systemsA load driver device for engineering modularity in biological networks.Unlimited multistability and Boolean logic in microbial signallingAn engineered genetic selection for ternary protein complexes inspired by a natural three-component hitchhiker mechanism.A brief history of synthetic biology.An operational view of intercellular signaling pathways.Designing bacterial signaling interactions with coevolutionary landscapes
P2860
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P2860
Engineering robust control of two-component system phosphotransfer using modular scaffolds.
description
2012 nî lūn-bûn
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2012年の論文
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2012年学术文章
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name
Engineering robust control of ...... nsfer using modular scaffolds.
@ast
Engineering robust control of ...... nsfer using modular scaffolds.
@en
type
label
Engineering robust control of ...... nsfer using modular scaffolds.
@ast
Engineering robust control of ...... nsfer using modular scaffolds.
@en
prefLabel
Engineering robust control of ...... nsfer using modular scaffolds.
@ast
Engineering robust control of ...... nsfer using modular scaffolds.
@en
P2093
P2860
P356
P1476
Engineering robust control of ...... nsfer using modular scaffolds.
@en
P2093
John E Dueber
Stephanie A Davis
Weston R Whitaker
P2860
P304
18090-18095
P356
10.1073/PNAS.1209230109
P407
P50
P577
2012-10-15T00:00:00Z