Predicting Traits with Punnett Squares — Passage

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MS-LS3-1
MS-LS3-2
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ABOUT THIS READER
This NGSS-aligned science reading passage introduces middle school students to Punnett squares, a key tool in understanding genetic inheritance. Students learn how Punnett squares show the probability of traits being passed from parents to offspring, how dominant and recessive alleles work, and how this model supports the study of heredity. Using clear explanations and practical examples, such as predicting flower color or the chance of inheriting a genetic condition, this passage supports standard MS-LS3-2. It's a valuable resource for building scientific literacy, strengthening comprehension, and helping students apply genetic models in real-world contexts.
Publisher: Workybooks
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Written by:Workybooks Team
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Illustrated by:

A Punnett square is a simple diagram used to predict how traits may be inherited through sexual reproduction. Named after British geneticist Reginald Punnett, this tool helps scientists and students understand the chances of an offspring inheriting specific traits from its parents. It models how genes are passed from parents to offspring and how dominant and recessive traits appear in future generations.

 

Each parent contributes one allele for every gene. An allele is a version of a gene. For example, a gene for flower color might have a purple allele (P) and a white allele (p). A capital letter is used for a dominant allele, and a lowercase letter is used for a recessive allele. A Punnett square shows all the possible combinations of alleles that the offspring could inherit. If both parents have one dominant and one recessive allele (Pp), the Punnett square will show a 75% chance of a purple flower and a 25% chance of a white one.

 

Punnett squares are especially helpful in predicting how traits will show up in future generations. They don’t guarantee the outcome for a single offspring, but they show the probabilities. For example, if two parents are both carriers of a recessive gene for a disease, a Punnett square can show that there’s a 25% chance their child will have the disease, a 50% chance they will be a carrier, and a 25% chance they will be unaffected.

 

Understanding Punnett squares helps students grasp how genetic variation happens and why not all siblings look the same. It also shows how traits can stay hidden for generations before appearing again.

 

Fun Fact: Reginald Punnett also helped create the first genetics textbook—and he used chickens to study inherited traits!

What is a Punnett square used for?

Measuring plant heightMixing chemicalsPredicting inherited traitsObserving weather patterns

Who created the Punnett square?

Gregor MendelCharles DarwinReginald PunnettLouis Pasteur

What does each parent pass to their offspring?

One allele per geneFull set of genesOne cellOne organ

What does a lowercase letter represent in a Punnett square?

A plant geneA tall traitA recessive alleleA dominant trait

What is the chance of a white flower when two Pp plants are crossed?

100%50%75%25%

How does a Punnett square help scientists?

It shows DNA shapesIt shows trait probabilitiesIt increases gene strengthIt measures plant speed

What is the main idea of the passage?

Plants grow faster with sunAlleles cause all diseasesPunnett squares help predict inheritanceGenes are always the same

If two carriers of a recessive disease gene have a child, what’s the chance the child will be a carrier?

0%25%50%100%

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