2013
DOI: 10.1063/1.4810915
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Dynamics simulations for engineering macromolecular interactions

Abstract: The predictable engineering of well-behaved transcriptional circuits is a central goal of synthetic biology. The artificial attachment of promoters to transcription factor genes usually results in noisy or chaotic behaviors, and such systems are unlikely to be useful in practical applications. Natural transcriptional regulation relies extensively on protein-protein interactions to insure tightly controlled behavior, but such tight control has been elusive in engineered systems. To help engineer proteinprotein … Show more

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Cited by 10 publications
(11 citation statements)
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References 46 publications
(50 reference statements)
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“…For example, as discussed in this issue, at subcellular level the binding of transcription factors to the DNA molecules presents significant challenges for both experimental and theoretical analyses. 76 Logical models provide a simplified way to capture the main genes, the transcription factors, and their interactions without specifying the detailed kinetics. An early example is the analysis of bacteriophage lambda that showed how the 025001- 4 Albert, Collins, and Glass Chaos 23, 025001 (2013) interaction of both positive and negative feedback loops were necessary to understand the interaction of the virus with a bacterium and whether the virus would cause lysis of the bacterium or would incorporate into the bacterium's genome leading to the state of lysogeny.…”
Section: Analysis Of Naturally Occurring Genetic Networkmentioning
confidence: 99%
See 1 more Smart Citation
“…For example, as discussed in this issue, at subcellular level the binding of transcription factors to the DNA molecules presents significant challenges for both experimental and theoretical analyses. 76 Logical models provide a simplified way to capture the main genes, the transcription factors, and their interactions without specifying the detailed kinetics. An early example is the analysis of bacteriophage lambda that showed how the 025001- 4 Albert, Collins, and Glass Chaos 23, 025001 (2013) interaction of both positive and negative feedback loops were necessary to understand the interaction of the virus with a bacterium and whether the virus would cause lysis of the bacterium or would incorporate into the bacterium's genome leading to the state of lysogeny.…”
Section: Analysis Of Naturally Occurring Genetic Networkmentioning
confidence: 99%
“…87,89 In another approach, kinetic equations for genetic networks are described by functions based on polynomial expressions. 111 Of course, it is also possible that simplified models will not offer adequate insights and that emerging theory will require realistic models for subcellular 76 or cellular 106 processes. Independent of the class of theoretical model that proves most useful to understand the structure of genetic networks, a profound problem involves the comparative structure of genetic networks in different organisms and the evolution of these networks.…”
Section: The Future Of Genetic Networkmentioning
confidence: 99%
“…3, A and B) and the greater repulsion due to the increased negative charge. Although it is also possible for a linker to exhibit reduced binding enhancement because it is too short to span the two receptors (25,38), this was not expected in our system due to the inclusion of the SNAP domains (Fig. 1 B).…”
Section: Predicted and Observed Effects Of Linker Geometry And Ifna Bmentioning
confidence: 50%
“…The simulation predicts the increase in effective IFNa concentration near the cell membrane as a result of CD20 binding (see Materials and Methods for details), which can then be used to compute the rate parameters. We developed the CBD simulation method by extending the molecular-dynamics simulation framework previously developed in our group (25). We added the capacity to handle nonspherical rigid structures for modeling rigid linkers and protein domain geometry.…”
Section: Two-component Computational Model For Antibody-cytokine Compmentioning
confidence: 99%
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