BioBuilder by Natalie Kuldell, Rachel Bernstein, Karen Ingram -- Read -- Imperial Library of Trantor

Index

Preface

Who Should Read This Book Why We Wrote This Book A Word on Synthetic Biology Today Navigating This Book Online Resources Safari® Books Online How to Contact Us Acknowledgments

1. Fundamentals of Synthetic Biology

What Is Synthetic Biology?

Why Synthetic Biology? Synthetic Biology in Context

Introduction to Engineering and Design

“Traditional” Engineering Solutions Engineering Toolkits

The Synthetic Biology Toolkit

The Molecular Biology Toolkit The Toolkit Expanded for Synthetic Biology

DNA synthesis Standardization Abstraction

Wrap-Up Additional Reading and Resources

2. Fundamentals of Biodesign

Illustrating a Top-Down Design Approach From Planning Vacations to Biodesign

From Design to Implementation

Biodesign Process Overview

Identify an Area and Challenge Brainstorm Solutions to the Challenge Decide on an Approach Specify Your System with Devices, Parts, and DNA

System-level design Device-level design Logic devices Parts-level design

What’s Next? Additional Reading and Resources

3. Fundamentals of DNA Engineering

Framing the Discussion Standardization of Parts and Measurements

What Is Standardization? Competing Standards How Standards Are Established

DNA Engineering in Practice

DNA Assembly Basics Applying the Basics of DNA Assembly

Building DNA: traditional molecular cloning Building DNA: BioBrick assembly Building DNA: Gibson assembly

What’s Next? Additional Reading and Resources

4. Fundamentals of Bioethics

What Makes “Good Work”? Regulating for Ethical Research

Scientific Advances Raise Ethical Questions Public Response

Risk assessment: minimizing harm while maximizing good Self-regulation versus government legislation: freedom, fairness, and justice Apprehension: respect for individuals

Three Synthetic Biology Case Studies

Grow-Your-Own Glowing Plants “Creating” Genomes Biosynthetic Drugs and the Economics of Public Benefit

Group Bioethics Activities

Bioethics Involves a Decision-Making Process

Identifying the ethical question Identifying the stakeholders Connecting facts with guiding ethical principles The Cambridge City Council hearings: bioethics in action

Stakeholder Activity

Additional Reading and Resources

5. Introduction to the BioBuilder Labs

Biological Engineering with Synthetic Biology’s Toolkit

6. Eau That Smell

Inspiration from the Eau d’coli iGEM Project

Identify a Challenge Brainstorm Solutions System-Level Design Device-Level Design System-Level Design, Revised Device-Level Design, Revised Parts-Level Design Final Device and System-Level Edits

Additional Reading and Resources Eau That Smell Lab

Design Choices Experimental Question Getting Started

Advanced preparation

Prepare banana smell standards Prepare turbidity standards

Pre-lab procedures

Day 1: streak out strains from stabs to plates Day 2: grow liquid overnights of bacterial strains

Lab Protocol

Data collection: turbidity using a spectrophotometer Data collection: turbidity using turbidity standards Data collection: banana smell

7. iTune Device

Modularity Insulation Principles of Measurement

What’s Normally Measured Making and Reporting Measurements for Synthetic Biology

Foundational Concepts for the iTune Device Lab

Promoters and RBSs The Lac Operon

Additional Reading and Resources iTune Device Lab

Design Choices Experimental Question Getting Started

Advanced preparation

Prepare turbidity standards

Pre-lab procedures

Day 1: streak out strains from stabs to plates Day 2: grow liquid overnights of bacterial strains

Lab Protocol

Data collection: turbidity and color using a spectrophotometer

8. Picture This

Introduction to Modeling

Computational Modeling Physical Modeling

Inspiration from the “Coliroid” iGEM Project

Device-Level Design Parts-Level Design

Additional Reading and Resources Picture This Lab

Design Choices Bacterial Photographs TinkerCell Modeling Electronic Circuit Modeling

Electronics modeling activity

9. What a Colorful World

Introduction to Chassis

Utility, and How to Engineer It Safety, and How to Engineer It

Background on the E. chromi iGEM Project

About Their Devices Parts and Devices

Additional Reading and Resources What a Colorful World Lab

Design Choices Experimental Question Getting Started Lab Protocol

10. Golden Bread

Engineering Reliability

Scheduled Maintenance Redundancy Building Robust Systems

Background on the “VitaYeast” iGEM Project

Motivation Parts-Level and Device-Level Design

Additional Reading and Resources Golden Bread Lab

Design Choices Experimental Question Getting Started Lab Protocol Transforming VitaYeast

A. Laboratory Reagents and Materials

Equipment Reagent Preparation and Storage

Solid and Liquid Media Stock Solutions Buffers Miscellaneous

Glossary Index

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