1 - 12 of 15 results

Cancer and Cell Fate

Keri Shingleton explains how she uses the BioInteractive animation on cancer and cell fate to spark curiosity in her students and encourage exploration of a topic.

Sequencing HHMI BioInteractive Cancer Resources

In this article, Rocky Mountain College professor Holly Basta discusses how she sequences BioInteractive cancer resources to get her students to think about big questions in how cell division is regulated — and how understanding regulation can guide drug design.

Using BioInteractive Resources with English Learners

In this blog post, hear how North Carolina educator Robin Bulleri uses BioInteractive materials in Spanish to support her English Learner students and how she structures her classes to empower her students to learn both academic and technical vocabulary.

Using the Identify and Interpret Strategy with Data Points

Want a simple but effective strategy for helping students interpret graphs? Check out this blog post by Pennsylvania educator Robert Cooper, who unpacks how to teach students to interpret complex data figures, such as those used in BioInteractive’s Data Points.

BCR-ABL Cancer Protein Structure and Function

Mary Wuerth explains how she uses the BCR-ABL Click & Learn to teach the importance of protein structure in understanding how proteins work, and how scientists use that knowledge to design drugs to fight cancer.

The Eukaryotic Cell Cycle and Cancer

Mark Randa describes how he uses BioInteractive's cell cycle Click & Learn with his college students to introduce the topic of cell birth and death, explain how the cell cycle proceeds, and show how cancer results when key regulation steps break down.

Cancer Discovery Activities

David Knuffke describes how he uses BioInteractive's cancer activities in his classroom, and how they can help teach Mendelian genetics using an interactive, real-world example.

Rock Pocket Mouse Resources

Ann Brokaw presents three BioInteractive resources she uses to support the short film Natural Selection and Adaptation. The activities focus on the Mc1r gene, protein, and receptor.