Students will participate in a 5E lesson. To ENGAGE, students will connect …
Students will participate in a 5E lesson. To ENGAGE, students will connect their understanding of similarities between parent and offspring to the fundamental molecule of life: DNA. To EXPLORE, students will participate in interactives to observe, analyze and summarize how genes are used to create proteins and traits. In the EXPLAIN section, students will take notes on DNA replication and the Central Dogma. To ELABORATE on their understanding of DNA, students will participate in a protein synthesis race (game) to practice transcription and translation. Formative evaluations of students's ability to explain the process of protein synthesis include (1) a protein synthesis and codon practice sheet, (2) a labeling activity, and (3) making a recording that models and explain the process. As an extension, students can apply their understanding of mRNA to explain how the Pfizer and Moderna COVID-19 vaccines work. Finally, int summative EVALUATE, students model replication, transcription, and translation as they build an organism!
As a class, students work through an example showing how DNA provides …
As a class, students work through an example showing how DNA provides the "recipe" for making our body proteins. They see how the pattern of nucleotide bases (adenine, thymine, guanine, cytosine) forms the double helix ladder shape of DNA, and serves as the code for the steps required to make genes. They also learn some ways that engineers and scientists are applying their understanding of DNA in our world.
In this activity, learners explore the "nuts and bolts" of gene chips. …
In this activity, learners explore the "nuts and bolts" of gene chips. Learners construct a simple model of a DNA microarray (also known as gene chips) and learn how microarrays can be used to identify and treat disease--including cancer. This resource includes references and an explanation of microarrays.
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