CSEL SCIENCE
Promoting Inquiry-based Learning
(high school)
CSEL Science promotes both project-based and model-based learning through investigations.
Session 7.3: Sickle Cell Inheritance Lab also illustrates both project-based and model-based learning through an investigation of sickle cell inheritance.
Students are tasked with investigating how a girl inherited the sickle cell gene and whether her future children are at risk of sickle cell anemia. Students analyze a real-world case, construct Punnett squares, and develop pedigree models to explain how a genetic trait is transmitted across generations.
This sustained inquiry reflects core features of project-based learning, including collaborative analysis of evidence and application of genetics concepts to an authentic scenario. It also exemplifies model-based learning, as students generate and revise representational models to explain inheritance patterns and predict outcomes.
Together, these activities position students as sensemakers using models to explain a meaningful biological phenomenon.
EXAMPLE:
from Module 7 • Patterns of Inheritance: Applications
Session 7.3: Sickle Cell Inheritance Lab
from Session 7.3: Sickle Cell Inheritance Lab
Activity 1: Set the Context

from Session 7.3: Sickle Cell Inheritance Lab
Activity 2: Learn about the Genetics of Sickle Cell Anemia

from Session 7.3: Sickle Cell Inheritance Lab
Activity 3: Complete a Punnett Square for Sickle Cell Anemia

from Session 7.3: Sickle Cell Inheritance Lab
Activity 4: Sickle Cell Case Study - Sonia's Story

from Session 7.3: Sickle Cell Inheritance Lab
Activity 5: Investigate How Sonia Inherited Sickle Cell Trait

from Session 7.3: Sickle Cell Inheritance Lab
Activity 6: Predict the Phenotypes & Genotypes of Sonia's Children

