Computer analysis of the binding reactions leading to a transmembrane receptor-linked multiprotein complex involved in bacterial chemotaxis.
about
Design and diversity in bacterial chemotaxis: a comparative study in Escherichia coli and Bacillus subtilisRadial and spiral stream formation in Proteus mirabilis coloniesAn agent-based model of signal transduction in bacterial chemotaxisDependence of bacterial chemotaxis on gradient shape and adaptation rateRobustness portraits of diverse biological networks conserved despite order-of-magnitude parameter uncertainty.Introducing simulated cellular architecture to the quantitative analysis of fluorescent microscopy.Changing cellular location of CheZ predicted by molecular simulationsOverview of mathematical approaches used to model bacterial chemotaxis II: bacterial populations.Simulated diffusion of phosphorylated CheY through the cytoplasm of Escherichia coli.Computer-based analysis of the binding steps in protein complex formationComputer-aided resolution of an experimental paradox in bacterial chemotaxis.The two-component signaling pathway of bacterial chemotaxis: a molecular view of signal transduction by receptors, kinases, and adaptation enzymesNoise characteristics of the Escherichia coli rotary motor.Origins of individual swimming behavior in bacteria.Chemotactic responses of Escherichia coli to small jumps of photoreleased L-aspartateRules for modeling signal-transduction systems.Visual motion with pink noise induces predation behaviour.Cell signaling pathways as control modules: complexity for simplicity?A model of excitation and adaptation in bacterial chemotaxis.Excitation and adaptation in bacteria-a model signal transduction system that controls taxis and spatial pattern formationOverview of mathematical approaches used to model bacterial chemotaxis I: the single cell.Theoretical insights into bacterial chemotaxis.Enhancement of Swimming Speed Leads to a More-Efficient Chemotactic Response to Repellent.Swimming patterns and dynamics of simulated Escherichia coli bacteria.Multi-stage regulation, a key to reliable adaptive biochemical pathways.Myriad molecules in motion: simulated diffusion as a new tool to study molecular movement and interaction in a living cell.Response regulator output in bacterial chemotaxis.Size and composition of membrane protein clusters predicted by Monte Carlo analysis.Biomimetic control based on a model of chemotaxis in Escherichia coli.
P2860
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P2860
Computer analysis of the binding reactions leading to a transmembrane receptor-linked multiprotein complex involved in bacterial chemotaxis.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
1995年论文
@zh
1995年论文
@zh-cn
name
Computer analysis of the bindi ...... olved in bacterial chemotaxis.
@en
type
label
Computer analysis of the bindi ...... olved in bacterial chemotaxis.
@en
prefLabel
Computer analysis of the bindi ...... olved in bacterial chemotaxis.
@en
P2860
P356
P1476
Computer analysis of the bindi ...... olved in bacterial chemotaxis.
@en
P2093
P2860
P304
P356
10.1091/MBC.6.10.1367
P577
1995-10-01T00:00:00Z