Explores the changing roles, ethical conflicts, and public perceptions of science and scientists in American society from World War II to the present. Studies specific historical episodes focusing on debates between scientists and the contextual factors influencing their opinions and decisions. Topics include the atomic bomb project, environmental controversies, the Challenger disaster, biomedical research, genetic engineering, (mis)use of human subjects, scientific misconduct and whistleblowing.

Students construct paper recombinant plasmids to simulate the methods genetic engineers use to create modified bacteria. They learn what role enzymes, DNA and genes play in the modification of organisms. For the particular model they work on, they isolate a mammal insulin gene and combine it with a bacteria's gene sequence (plasmid DNA) for production of the protein insulin.

Students have the opportunity to read through a bioethical scenario related to biotechnology, then answer a few discussion questions related to the reading  I have students read one scenario on their own and highlight the FIVE most important ¨facts¨ of that scenario (I tell students there isn´t a wrong answer, they can highlight which ever pieces they feel are the most important from the reading- this allows different viewpoints to be demonstrated when they do the next part)  Then students get into a small group with others that read the same scenario.  They first discuss which items they each highlighted and what they thought about the article.  Next I hand out the discussion questions related to their reading passage and have the students answer the questions as a group.    For the last part of the discussion, I have students regroup so that each new group has ONE person from eaching reading passage.  Students share out a quick summary of their passage and then ask the new group if they think biotechnology should continue related to the information in the article.  If time permits, we have a whole class discussion about the ethics behind biotechnology and the different examples demonstrated in the reading passages.  

DNA Interactive is a great website with interactive lessons about genetics, biotechnology and DNA. Created by the DNA Learning Center, the website allows students to learn the basics of DNA and genetic manipulation through interactive modules, articles and mini-games. Additionally, there are teacher lessons, activities and answer keys available on the website that can be modified to fit your curriculum.

" This is an advanced course on modeling, design, integration and best practices for use of machine elements such as bearings, springs, gears, cams and mechanisms. Modeling and analysis of these elements is based upon extensive application of physics, mathematics and core mechanical engineering principles (solid mechanics, fluid mechanics, manufacturing, estimation, computer simulation, etc.). These principles are reinforced via (1) hands-on laboratory experiences wherein students conduct experiments and disassemble machines and (2) a substantial design project wherein students model, design, fabricate and characterize a mechanical system that is relevant to a real world application. Students master the materials via problems sets that are directly related to, and coordinated with, the deliverables of their project. Student assessment is based upon mastery of the course materials and the student's ability to synthesize, model and fabricate a mechanical device subject to engineering constraints (e.g. cost and time/schedule)."

Students read a scientific article about a research study done in India about genetically modified cotton.  Upon finishing the article student answer a number of literacy based questions about the article to both assess their vocabulary and understanding of the content of the article.  This is a great quick assignment to allow students to practice literacy as well as introducing them to a higher level reading material.  

Students research and construct an oral debate about a topic related to Genetically Modified Organisms.

Students will read and evaluate different perspectives related to the Green Revolution and analyze how different perspectives can shape the public´s perception of agriculture and biotechnology.  Students read different articles written about the Green Revolution and answer questions to encourage them to interpret the meaning behind each article.  I use small and large group discussions after students read the articles to also stimuate discussion in my classroom about perceptions of the public.  You can extend this activity by having students conduct surveys or additional reseach about more recent topics related to biotechnology and find other articles that showcase different sides of an issue.  

" This class is a project-based introduction to the engineering of synthetic biological systems. Throughout the term, students develop projects that are responsive to real-world problems of their choosing, and whose solutions depend on biological technologies. Lectures, discussions, and studio exercises will introduce (1) components and control of prokaryotic and eukaryotic behavior, (2) DNA synthesis, standards, and abstraction in biological engineering, and (3) issues of human practice, including biological safety; security; ownership, sharing, and innovation; and ethics. Enrollment preference is given to freshmen. This subject was originally developed and first taught in Spring 2008 by Drew Endy and Natalie Kuldell. Many of Drew's materials are used in this Spring 2009 version, and are included with his permission. This OCW Web site is based on the OpenWetWare class Wiki, found at OpenWetWare: 20.020 (S09)"

Students learn how engineers apply their understanding of DNA to manipulate specific genes to produce desired traits, and how engineers have used this practice to address current problems facing humanity. They learn what genetic engineering means and examples of its applications, as well as moral and ethical problems related to its implementation. Students fill out a flow chart to list the methods to modify genes to create GMOs and example applications of bacteria, plant and animal GMOs.

This kit explores how sustainability has been presented in the media with a particular focus on issues related to food, water and agriculture. Each of the 19 lessons integrates media literacy and critical thinking into lessons about different aspect of sustainability. Constant themes throughout the kit include social justice, climate change, energy, economics and unintended consequences.

Students read two articles about transgenic animals (EnviroPig and Spider Goat).  With each article there are some guiding questions to make sure students understand the information in the articles.  At the end of the worksheet, student then need to form their own opinion about transgenic animals and construct a short essay about their thoughts on transgenic animals.  Allows students to utilize literacy concepts in biotechnology.