Computational design of a Zn2+ receptor that controls bacterial gene expression.
about
Structure-based design of robust glucose biosensors using aThermotoga maritimaperiplasmic glucose-binding proteinBiology by design: reduction and synthesis of cellular components and behaviourEngineering a zinc binding site into the de novo designed protein DS119 with a βαβ structureDesigning hydrolytic zinc metalloenzymesOptGraft: A computational procedure for transferring a binding site onto an existing protein scaffold.Probing the minimal determinants of zinc binding with computational protein designIPRO: an iterative computational protein library redesign and optimization procedureKinetic buffering of cross talk between bacterial two-component sensors.Computational design of receptors for an organophosphate surrogate of the nerve agent soman.Tunable signal processing in synthetic MAP kinase cascades.Guanidinium derivatives bind preferentially and trigger long-distance conformational changes in an engineered T4 lysozyme.Role of Na+ and K+ in enzyme function.Catalytic mechanism and performance of computationally designed enzymes for Kemp eliminationOrigin of the activity drop with the E50D variant of catalytic antibody 34E4 for Kemp eliminationUse of sequence duplication to engineer a ligand-triggered, long-distance molecular switch in T4 lysozyme.Design strategies of fluorescent biosensors based on biological macromolecular receptors.Crosstalk between endogenous and synthetic components--synthetic signaling meets endogenous components.Design of catalytically amplified sensors for small moleculesAnalysis of allosteric signal transduction mechanisms in an engineered fluorescent maltose biosensor.Local encoding of computationally designed enzyme activity.Escherichia [corrected] coli ribose binding protein based bioreporters revisited.Identification of cognate ligands for the Escherichia coli phnD protein product and engineering of a reagentless fluorescent biosensor for phosphonates.Structural Frameworks Suitable for Engineering
P2860
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P2860
Computational design of a Zn2+ receptor that controls bacterial gene expression.
description
2003 nî lūn-bûn
@nan
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
2003年论文
@zh
2003年论文
@zh-cn
name
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@ast
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@en
type
label
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@ast
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@en
prefLabel
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@ast
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@en
P2093
P2860
P356
P1476
Computational design of a Zn2+ receptor that controls bacterial gene expression.
@en
P2093
H W Hellinga
L L Looger
P2860
P304
11255-11260
P356
10.1073/PNAS.2032284100
P407
P577
2003-09-19T00:00:00Z