| ISBN13: | 9780123850751 |
| ISBN10: | 0123850754 |
| Binding: | Hardback |
| No. of pages: | 714 pages |
| Size: | 228x152 mm |
| Weight: | 1270 g |
| Language: | English |
| 0 |
Synthetic Biology, Part A
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Synthetic biology encompasses a variety of different approaches, methodologies and disciplines, and many different definitions exist. This Volume of Methods in Enzymology has been split into 2 Parts and covers topics such as Measuring and Engineering Central Dogma Processes, Mathematical and Computational Methods and Next-Generation DNA Assembly and Manipulation.
Section I. Measuring and Engineering Central Dogma Processes
- Sequence-specificity and Energy Landscapes of DNA-binding Molecules
- Promoter Reliability in Modular Transcriptional Networks
- The Analysis of ChIP-seq Data
- Using DNA Microarrays to Assay Part Function
- Orthogonal gene expression in Escherichia coli
- Directed evolution of promoters and tandem gene arrays for customizing RNA synthesis rates and regulation
- Design and Connection of Robust Genetic Circuits
- Engineering RNAi circuits
- From SELEX to cell: Dual selections for synthetic riboswitches
- Using noisy gene expression mediated by engineered adenovirus to probe signaling dynamics in mammalian cells
- De novo design and construction of an inducible gene expression system in mammalian cells
- BioBuilding: Using banana-scented bacteria to teach synthetic biology
- Use of Fluorescence Microscopy to Analyze Genetic Circuit Dynamics
- Microfluidics for synthetic biology: From design to execution
- Plate-based assays for light-regulated gene expression systems
- Spatiotemporal control of small GTPases with light using the LOV domain
- Light Control of Plasma Membrane Recruitment using the Phy-PIF system
- Synthetic Physiology: Strategies for Adapting Tools from Nature for Genetically-Targeted Control of Fast Biological Processes
- Metabolic Pathway Flux Enhancement by Synthetic Protein Scaffolding
- A Synthetic Iterative Pathway for ketoacid elongation
- Synthetic Biology in Streptomyces bacteria
- Methods for Engineering Sulfate Reducing Bacteria of the Genus Desulfovibrio
- Modification of the Genome of Rhodobacter sphaeroides and Construction of Synthetic Operons
- Synthetic Biology in Cyanobacteria: Engineering and Analyzing Novel Functions
- Developing a Synthetic Signal Transduction System in Plants
- Lentiviral Vectors to Study Stochastic Noise in Gene Expression
Joshua R. Tietjen, Leslie J. Donato, Devesh Bhimisaria and Aseem Z. Ansari
Rajat Anand, Navneet Rai and Mukund Thattai
Wenxiu Ma and Wing Hung Wong
Virgil A. Rhodius and Carol A. Gross
Wenlin An and Jason Chin
Keith E.J. Tyo, Elke Nevoigt and Gregory Stephanopoulos
Section II. Device and System Design, Optimization, and Debugging
Ron Weiss
Yaakov Benenson
Joy Sinha, Shana Topp, and Justin P. Gallivan
Jeffrey V. Wong, Guang Yao, Joseph R. Nevins and Lingchong You
Maria Karlsson, Wilfried Weber and Martin Fussenegger
James Dixon and Natalie Kuldell
Section III. Device Measurement, Optimization, and Debugging
Gürol Süel
M. S. Ferry, I. A. Razinkov, J. Hasty
Jeffrey J. Tabor
Yi I. Wu, Xiaobo Wang, Li He, Denise Montell and Klaus M. Hahn
Jared E. Toettcher, Delquin Gong, Wendell A. Lim, Orion D. Weiner
Ed Boyden
Section IV. Devices for Metabolic Engineering
John E. Dueber and Weston R. Whitaker
C. R. Shen, J. C. Liao
Section V. Expanding Chasses
Marnix Medema, Rainer Breitling and Eriko Takano
Kimberly L. Keller, Judy D. Wall and Swapnil Chhabra
Paul R. Jaschke, Rafael G. Saer, Stephan Noll and J. Thomas Beatty
Thorsten Heidorn, Daniel Camsund, Hsin-Ho Huang, Pia Lindberg, Paulo Oliveira, Karin Stensjö, and Peter Lindblad
Kevin J. Morey, Mauricio S. Antunes, Kirk D. Albrecht, Tessa A. Bowen, Jared F. Troupe, Keira L. Havens and June I. Medford
Kate Franz, Abhyudai Singh, and Leor S. Weinberger
