Synthetic Biology in the Lab
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Author: Natalie Kuldell PhD.,Rachel Bernstein,Karen Ingram,Kathryn M Hart
Publisher: "O'Reilly Media, Inc."
Today’s synthetic biologists are in the early stages of engineering living cells to help treat diseases, sense toxic compounds in the environment, and produce valuable drugs. With this manual, you can be part of it. Based on the BioBuilder curriculum, this valuable book provides open-access, modular, hands-on lessons in synthetic biology for secondary and post-secondary classrooms and laboratories. It also serves as an introduction to the field for science and engineering enthusiasts. Developed at MIT in collaboration with award-winning high school teachers, BioBuilder teaches the foundational ideas of the emerging synthetic biology field, as well as key aspects of biological engineering that researchers are exploring in labs throughout the world. These lessons will empower teachers and students to explore and be part of solving persistent real-world challenges. Learn the fundamentals of biodesign and DNA engineering Explore important ethical issues raised by examples of synthetic biology Investigate the BioBuilder labs that probe the design-build-test cycle Test synthetic living systems designed and built by engineers Measure several variants of an enzyme-generating genetic circuit Model "bacterial photography" that changes a strain’s light sensitivity Build living systems to produce purple or green pigment Optimize baker’s yeast to produce ?-carotene
Do New and Atypical Works Deserve Protection?
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Author: Enrico Bonadio,Nicola Lucchi
Publisher: Edward Elgar Publishing
Copyright law constantly evolves to keep up with societal changes and technological advances. Contemporary forms of creativity can threaten the comfortable conceptions of copyright law as creative people continually find new ways of expressing themselves. In this context, Non-Conventional Copyright identifies possible new spaces for copyright protection. With current copyright law in mind, the contributions explore if the law should be more flexible as to whether new or unconventional forms of expression - including graffiti, tattoos, land art, conceptual art and bio art, engineered DNA, sport movements, jokes, magic tricks, DJ sets, 3D printing, works generated by artificial intelligence, perfume making, typefaces, or illegal and immoral works - deserve protection. Vitally, the contributors suggest that it may be time to challenge some of the basic tenets of copyright laws by embracing more flexible ways to identify protectable works and interpret the current requirements for protection. Additionally, some contributors cast doubts about whether copyright is the right instrument to address and regulate these forms of expression. Contemporary in topic, this thought-provoking book will be essential reading for intellectual property law scholars, practitioners and policymakers. Creative people and those involved in the creative industries will also find this book an engaging read.
Methods for Part/Device Characterization and Chassis Engineering
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Author: Chris Voigt
Publisher: Academic Press
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. Encompasses a variety of different approaches, methodologies and disciplines 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
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Author: Natalie Kuldell,Neal Lerner
Publisher: Morgan & Claypool Publishers
Category: Technology & Engineering
The science of biology celebrates the discovery and understanding of biological systems that already exist in nature. In parallel, the engineering of biology must learn how to make use of our understanding of the natural world to design and build new useful biological systems. "Synthetic biology" represents one example of recent work to engineer biological systems. This emerging field aims to replace the ad hoc process of assembling biological systems by primarily developing tools to assemble reliable-but-complex living organisms from standard components that can later be reused in new combination. The focus of this book is "genome refactoring," one of several approaches to manage the complexity of a biological system in which the goal is to redesign the genetic elements that encode a living form--preserving the function of that form but encoding it with a genome far easier to study and extend. This book presents genome refactoring in two ways: as an important aspect of the emerging field of synthetic biology and as a powerful teaching tool to train would be professionals in the subject. Chapters focus on the overarching goals of synthetic biology and their alignment with the motivations and achievements in genome engineering; the engineering frameworks of refactoring, including genome synthesis, standardization of biological parts, and abstraction; a detailed description of the bacteriophages that have been refactored up to this point; and the methods of refactoring and contexts for that work drawn from the bacteriophage M13. Overall, these examples offer readers the potential for synthetic biology and the areas in need of further research. If successful, synthetic biology and genome refactoring could address any number of persistent societal needs, including sustainable energy, affordable and effective medicine, and green manufacturing practices. Table of Contents: Tools for Genome Engineering and Synthetic Biology / Bacteriophage as Templates for Refactoring / Methods/Teaching Protocols for M13 Reengineering / Writing and Speaking as Biological Engineers / Summary and Future Directions / Appendix A / Appendix B / Appendix C