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AP Biology 1.4 Essential Life Process Information. A 1:2:1 phenotypic ratio is the hallmark of what type of cross?

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Transcript

00:04

Here’s your shmoop du jour, brought to you by Gregor Mendel…

00:06

… the father of genetics… [A picture of Gregor Mendel and a DNA helix]

00:08

…and noted pea lover.

00:12

A 1 to 2 to 1 phenotypic ratio is the hallmark of this type of cross.

00:18

And here are the potential answers...

00:19

Let’s use a Punnett Square to figure it out. [A punnett square]

00:24

Honestly, we use a Punnett Square to figure everything out.

00:26

Although…they’re really not the best for advanced calculus…[Boy attempting to use a punnett square to solve a calculus problem]

00:29

Okay, so…keep in mind that incomplete dominance means that a phenotype with a mixed pairing

00:34

of genes will display neither the dominant nor recessive trait, but its own unique trait. [Mendel and Punnett stood together discussing the punnett square]

00:41

All right…how’s A lookin’?

00:43

“Monohybrid cross with simple dominance”.

00:45

Well…that cross yields a 3 to 1 ratio.

00:48

In other words, any phenotype containing a dominant “A” gene will display that trait. [Mendel crossing out Punnett and replacing it with Mendel]

00:53

Which is what makes it “simple dominance,” and that’s not what we’re looking for.

00:57

Option C…a Dihybrid cross…examines the phenotypic outcomes of 2 traits, not 1, which

01:02

is what a monohybrid cross does.

01:04

This yields 16 combinations, not 4…the sum of 1 to 2 to 1.

01:09

Way too many combos for our liking, so that’s not the answer.

01:12

Buh-bye, C.

01:13

How about D, a test cross? [A punnett square with question marks]

01:14

A test cross can be used to determine the genotype of a plant or animal. [baby deers in a field]

01:19

Think of it as working backwards to see what an organism’s Punnett Square would look

01:23

like.

01:24

Very useful…and fun, if you’re bored on a train…but it’s not the kind of cross

01:27

we’re after.

01:28

The correct answer is B, a monohybrid cross with incomplete dominance. [A monohybrid cross punnett square]

01:33

Think about the example of human hair. [A woman brushing her hair]

01:35

In humans, "S" is for straight hair, while "C" is for curly hair. [A woman with curly hair and a woman with straight her in a hairdressers store]

01:39

However, a mixed "SC" will have wavy hair.

01:43

Anyway, this is what makes it an example of incomplete dominance, as opposed to simple

01:48

dominance…

01:49

So, this type of cross yields a 1 to 2 to 1 phenotypic ratio.

01:52

Two out of four possible offspring of a monohybrid cross with incomplete dominance will have [B answer circled in green]

01:56

a mixed phenotype.

01:57

Let’s give it up for Punnett Squares.

01:59

Have you ever had more fun in your life? [Punnett telling Mendel to forget about the naming of Punnett Squares]

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