Complete Punnett squares to predict your offspring’s ... · ... (to determine if you are...

Name: ____________________________________

Project RECEIVED: _________________________

Project DUE: _______________________________

Project is worth ________________ total points

Our third quarter project will be based on the concepts of Meiosis and Genetics. During this project we will

specifically look at the effect of genes on the outward appearance of an organism.

After this project, you should be able to answer the following questions: What is the difference between Genotype and Phenotype?

Do some traits require more than one gene to be fully expressed?

How is there so much variation in the way children look even if they come from the same parents?

How many chromosome pairs does each human parent have?

How many chromosomes does each parent "donate" to the next generation?

Are some genes and gene characteristics expressed over others.... are dominant and recessive genes

responsible for how a baby looks?

1

Project Procedure:

Check Here After completing each step

______

______

125 points

Use the key to analyze your genes on each chromosome .

While doing this, you will need to analyze your parents traits (to determine if you are homozygous

or heterozygous for a particular trait). Note: If you live with 1 parent, are adopted, etc., you

may assume your parents’ genotypes are heterozygous (if you want to prove that your mom/

dad is homozygous dominant (RR rather than Rr), you must investigate your grandparents

also (no, I will not be giving extra credit for grandparents’ genetic make-up).

Complete the Phenotype and Genotype trait analysis for yourself, your parents, and your spouse (100 points).

Complete the Questions at the end of this section (25 points).

______

______

125 points

Complete Punnett squares to predict your offspring’s potential traits, including the genotypic

and phenotypic Ratio for your potential child (you and your spouse are the parents). (100 points)


______ 25 points

Make chromosomes for you and for your spouse, and complete MEiosis.

______

25 points

Complete all Karyotype Charts and Tables.

Have your baby; and determine your baby’s genotypes and phenotypes.

______

50 points

Draw your offspring or use pictures to make him/her and INCLUDE A KEY for at least 10 traits.

_____ 10 points – attempt to draw your child as a 12-13 year old boy or girl

_____ 10 points – 10 traits are picked (any 10) and listed on a key

_____ 30 points – the 10 traits you picked are clearly shown (or labeled) on your drawing – 3

points per trait.

______

50 points

Complete the Questions at the end of this section and turn in your completed project!

Chromosome #1

Face Shape A round face is dominant over a square face

Round Square

RR, Rr rr

Chromosome #2

Chin Prominence A prominent jaw (you can feel the bone) is dominant over a less promi-nent jaw.

Very Less

Prominent Prominent

II, Ii ii

Chromosome #3 Chin Shape

A round chin is dominant over a square chin (if your chin is pointed at all, it is square)

Round Square

SS, Ss ss

Chromosome #4

Chin Cleft

A chin cleft is dominant over a smooth chin. If your chin sweeps upward in the middle, you have a cleft.

Present Absent

CC, Cc cc

Chromosome #5 Mid-digital hair Hair on the second (middle) joint of the fingers is dominant to hair-

less fingers.

HAIR NO HAIR

NN, Nn nn

Hair No Hair

Disclaimer: While we have tried to make the traits and information somewhat realistic, human genetics is an extremely compli-

cated field of research. Most of the traits indicated are controlled by several genes on many chromosomes. We tried to pick traits that reflect simple Mendelian inheritance as much as possible. However, the traits in the project are not necessarily the full story,

and they are probably NOT located on the chromosomes indicated.

Chromosome 1: Face Shape

Circle the correct phenotype and genotype

Phenotype: Genotype:

Mom Round/Square RR, Rr, rr

Dad Round/Square RR, Rr, rr

Me Round/Square RR, Rr, rr

Spouse Round/Square RR, Rr, rr

Chromosome 2: Chin Prominence



Mom Very/Less II, Ii, ii

Dad Very/Less II, Ii, ii

Me Very/Less II, Ii, ii

Spouse Very/Less II, Ii, ii

Chromosome 3: Face Shape



Mom Round/Square SS, Ss, ss

Dad Round/Square SS, Ss, ss

Me Round/Square SS, Ss, ss

Spouse Round/Square SS, Ss, ss

Chromosome 4: Chin Cleft



Mom Present/Absent CC, Cc, cc

Dad Present/Absent CC, Cc, cc

Me Present/Absent CC, Cc, cc

Spouse Present/Absent CC, Cc, cc

Chromosome 5: Mid-digital hair

Fill out the correct phenotype and genotype


Mom

Dad

Me

Spouse

2

Chromosome #6

Nose Shape

A rounded nose is dominant over a pointed nose.

Rounded Pointed

UU, Uu uu

Chromosome #9

Ear Attachment

Lobed ears are dominant to at-tached ears.

Lobed Attached

ZZ, Zz zz

Chromosome #10

Ear Hair

Hairy ears are dominant over hairless ears.

Hairy Hairless

DD, Dd dd

Chromosome #7 HAND CLASPING When clasping your hands together (without thinking about it!), left thumb on top of their right is dominant over right thumb.

LEFT RIGHT

QQ, Qq qq

Chromosome #8

Lip Size

Thick lips are dominant over thin lips.

Thick Thin

JJ, Jj jj




Chromosome 6: Nose Shape



Mom

Dad

Me

Spouse

Chromosome 7: Hand Clasping



Mom

Dad

Me

Spouse

Chromosome 8: Lip Size



Mom

Dad

Me

Spouse

Chromosome 9: Ear Attachment



Mom

Dad

Me

Spouse

Chromosome 10: Ear Hair



Mom

Dad

Me

Spouse

3

Chromosome #11

Dimple Presence The presence of dimples are domi-nant over not hav-ing dimples.

Present Absent

KK, Kk kk

Chromosome #12

Eyelashes Thick eyelashes are dominant over thin eyelashes.

Thick Thin

MM,Mm mm

Chromosome #13

BENT LITTLE FINGER

Little fingers that bend dramatically towards the 4th finger are domi-nant to straight little fingers.

BENT STRAIGHT

LL, Ll ll

Chromosome #14

Eye Shape

Almond shaped eyes are dominant over round eyes.

Almond Round

VV, Vv vv

Chromosome #15

HITCHHIKER’S THUMB

A straight thumb is dominant to

hitchhiker’s thumb.

STRAIGHT HH THUMB

OO, Oo oo




Chromosome 15: Hitch-hiker’s thumb



Mom

Dad

Me

Spouse

Chromosome 13: Bent little finger



Mom

Dad

Me

Spouse

Chromosome 14: Eye Shape



Mom

Dad

Me

Spouse

Chromosome 11: Dimple Presence



Mom

Dad

Me

Spouse

Chromosome 12: Eyelashes



Mom

Dad

Me

Spouse

4

Chromosome #19

Widow’s Peak

A widow’s peak is dominant over an absent widow’s peak.

Present Absent

PP, Pp pp

Chromosome #20

Cheek Freckles

Freckles on cheeks are dominant over no freckles on cheeks.

Present Absent

BB, Bb bb

Chromosome #16

Eyebrow Type

Thick eyebrows are dominant over thin eyebrows.

Thick Thin

TT, Tt tt

Chromosome #17

Eyebrow Spacing

Separate eye-brows are domi-nant over con-nected eyebrows

Separate Connected

EE, Ee ee

Chromosome #18

LONG SECOND TOE

A second toe that is longer than the big toe is domi-nant over a shorter 2nd toe.

LONG SHORT

WW, Ww ww




Chromosome 16: Eyebrow type



Mom

Dad

Me

Spouse

Chromosome 20: Cheek Freckles



Mom

Dad

Me

Spouse

Chromosome 19: Widow’s peak



Mom

Dad

Me

Spouse

Chromosome 18: Long Second Toe



Mom

Dad

Me

Spouse

Chromosome 17: Eyebrow spacing



Mom

Dad

Me

Spouse

5

Chromosome #21

Tongue Roll

The ability to curl your tongue is dominant to inabil-ity.

Curl Can’t Curl

FF, Ff ff

Chromosome #22

Information for this chromosome is part of the hair color trait.

Chromosome #23

Gender

XX = Female XY = Male




Chromosome 23: Gender



Mom Female XX

Dad Male XY

Me

Spouse

Chromosome 21: Tongue Roll



Mom

Dad

Me

Spouse

1. Explain dominant: ___________________________________________________________________

2. Explain recessive: ___________________________________________________________________

3. Explain genotype: ___________________________________________________________________

4. Explain phenotype: __________________________________________________________________

5. In your project, find an example where you were dominant for a trait. That trait was

___________________________.

6. Explain the steps you took to figure out whether you were homozygous dominant (2 big

letters) or heterozygous (1 big letter, 1 little letter) for the trait in question #5?

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

7. What does the recessive trait do when your genotype is heterozygous (mixed—1 big and

1 little)? _____________________________________________________________________________

6

Chromosome #3, 6, 8, 22

Hair Color The alleles for hair color are found on many chromosomes. Therefore, hair color is said to be polygenic (many genes). The alleles for hair color represent the amount of pigment that is incorporated into the hair as it grows. The greater the number of dominant alleles, the darker the hair. Alleles appear on chromosomes 3,6,8, and 22 in groups of 2.

Chromosomes 3,6,8,22: Hair color



Mom

Dad

Me

Spouse

POLYGENIC TRAITS (HONORS) Poly = many, genic = genes

Genetics is quite complicated and most traits are actually controlled by more than one

gene. In 7th grade, we are not required to talk about concepts such as incomplete dominance, codominance, and polygenic traits, but they are pretty interesting. All

traits that involve color and pigment are polygenic and quite complicated. However,

we thought you would want to estimate the skin, hair, and eye color of your child. So,

you are welcome to use this information, but you will not be tested on it.

If you were unable to use the chart in class, use the science 7 website to see the color

pictures to determine your polygenic genotype.

Chromosomes 1, 2, 4: Skin color



Mom

Dad

Me

Spouse

Chromosomes 11, 12: Eye color


Mom Dad Me Spouse

Genotype

Phenotype

hmg.oxfordjournals.org/content/18/R1/R9.full.pdf+html; http://www.as.ua.edu/ant/bindon/ant570/topics/Skincolor.PDF

Chromosome #1, 2, 4

Skin Color The alleles for skin color are found on many different chromosomes. Therefore, skin color is said to be polygenic (many genes). The dominant allele (A) translates into a pro-tein called melanin. This is a dark pigment. Greater amounts of melanin = darker skin colors. Alleles appear on chromosomes 1, 2, and 4 in groups of 2.

Chromosome #11, 12

Eye Color The alleles for eye color are found on many different chromosomes. Therefore, eye color is said to be polygenic (many genes). Eye color is controlled by two sets of alleles. One pair of alleles (F) control the amount of pigment in the front of the iris. The other pair of alleles (B) control the amount of pigment in the back of the iris. The dominant al-leles “F” and “B” represent dark pigment. Alleles appear on chromosomes 11 and 12 in groups of two.

**Eye color comes from a combination of two black and yellow pigments called melanin in the iris of your eye. If you have no melanin in the front part of your iris, you have blue eyes. An increasing proportion of the yellow melanin, in combination with the black melanin, results in shades of colors between brown and blue, including green and hazel. **

HOW COMPLICATED DOES IT GET? http://openwetware.org/images/7/79/Eyecolor1.pdf

http://www.thetech.org/genetics/ask.php?id=29

7

Chromosome

Number

Traits My SPOUSE’s

Genotype

My SPOUSE’s

Phenotype

My

Genotype

My

Phenotype

1 Face Shape (RR, Rr, rr)

2 Chin Prominence (II, Ii, ii)

3 Chin Shape (SS, Ss, ss)

4 Chin Cleft (CC. Cc, cc)

5 Mid-digital hair (NN, Nn, nn)

6 Nose Shape (UU, Uu, uu)

7 Hand-clasping (QQ, Qq, qq)

8 Lip Size (JJ, Jj, jj)

9 Ear Lobe Attachment (ZZ. Zz.

zz)

10 Ear Hair (DD, Dd, dd)

11 Dimple Presence (KK, Kk, kk)

12 Eyelashes (MM, Mm, mm)

13 Bent little finger (LL, Ll, ll)

14 Eye Shape (VV, Vv, vv)

15 Hitchhiker’s Thumb (OO, Oo,

oo)

16 Eyebrow Type (TT, Tt, tt)

17 Eyebrow Spacing (EE, Ee, ee)

18 Long Second Toe (WW, Ww,

ww)

19 Widow’s Peak (PP, Pp, pp)

20 Cheek Freckle Presence (BB,

Bb, bb)

21 Tongue Roll (FF, Ff, ff)

22 Part of polygenics

23 Gender (XX, or XY)

POLYGENIC Hair Color (H)

POLYGENIC Skin Color (A)

POLYGENIC Eye Color (B and G)

8

AAAAAA AAAAAa AAAAaa AAAaaa AAaaaa Aaaaaa aaaaaa

BG Bg bG Bg

BG BBGG

BBGg

BbGG BbGg

Bg BBGg

BBgg BbGg Bbgg

bG BbGG

BbGg bbGG bbGg

bg BbGg

Bbgg bbGg bbgg

HHHHHHHH

HHHHHHHh

HHHHHHhh

HHHHHhhh

HHHHhhhh

HHHhhhhh

HHhhhhhh

Hhhhhhhh

hhhhhhhh

Red = special

Note: By completing Punnett Squares, you are able to

determine the probability (likelihood) that your offspring

will receive certain versions of each trait. To complete

these pages, refer to the traits analysis. You will not be

performing Punnett Squares for the polygenic traits (hair

color, skin color, eye color).

Chromosome #2

Chin Prominence (II, Ii, ii)

Me: ______ x Spouse ______

______

Chromosome #3

Chin Shape (SS, Ss, ss)

Me: _______

x

Spouse _______

Chromosome #1

Face Shape (RR, Rr, rr)

Me: ______ x Spouse ______

Chromosome #4

Chin Cleft (CC, Cc, cc)

Me: ____ x Spouse ______

Chromosome #5

Mid-digital hair (NN, Nn, nn)

Me: ____ x Spouse ______

Chromosome #6

Nose Shape (UU, Uu, uu)

Me: ____ x Spouse ______

Chromosome #7

Hand clasping (QQ, Qq, qq)

Me: ____ x Spouse ______

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent

chance your child will

have a round face?

_____________

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have a prominent chin?

_____________

Genotypic Ratio: Phenotypic Ratio:

______________ ___________________

What is the percent chance your child will have a

round chin? _____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a cleft?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have mid-digital hair?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a round nose?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


clasp right over left?

_____________

9

Chromosome #8

Lip Size (JJ, Jj, jj)

Me: ____ x Spouse ______

Chromosome #9

Ear Attachment (ZZ, Zz, zz)

Me: ____ x Spouse ______

Chromosome #10

Ear Hair (DD, Dd, dd)

Me: ____ x Spouse ______

Chromosome #11

Dimples (KK, Kk, kk)

Me: ____ x Spouse ______

Chromosome #12

Eyelashes (MM, Mm, mm)

Me: ____ x Spouse ______

Chromosome #13

Bent little finger (LL, Ll, ll)

Me: ____ x Spouse ______

Chromosome #14

Eye Shape (VV, Vv, vv)

Me: ____ x Spouse ______

Chromosome #15

Hitchhiker’s thumb (OO, Oo, oo)

Me: ____ x Spouse ______

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have thin lips?

_____________

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have attached ears?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have thin eyelashes?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a straight little

finger?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a round eyes?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a HH thumb?

_____________

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have hairless ears?

_____________

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have no dimples?

_____________

10

Chromosome #17

Eyebrow Spacing (EE, Ee, ee)

Me: ____ x Spouse ______

Chromosome #18

Long 2nd Toe

(WW, Ww, ww)

Me: _______

x

Spouse _______

Chromosome #16

Eyebrow Type (TT, Tt, tt)

Me: ____ x Spouse ______

Chromosome #19

Widow’s Peak (PP, Pp, pp)

Me: ____ x Spouse ______

Chromosome #20

Cheek Freckles (BB, Bb, bb)

Me: ____ x Spouse ______

Chromosome #21

Tongue Roll (FF, Ff, ff)

Me: ____ x Spouse ______

Chromosome #23

GENDER

Me: ____ x Spouse ______

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have thin eyebrows?

_____________

Genotypic Ratio:

___________________

Phenotypic Ratio:

___________________

What is the percent


have a connected eye-

brows? _____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have a widow’s peak?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent


have no cheek freckles?

_____________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent

chance your child will be

able to curl his/her

tongue? ___________

Genotypic Ratio:

__________________

Phenotypic Ratio:

__________________

What is the percent

chance your child will be

a boy? _____________

a girl? _____________

Genotypic Ratio: Phenotypic Ratio:

______________ ___________________

What is the percent chance your child will have a

short second toe? _____________

11

Polygenic– Skin

BONUS:

You can use FOIL (like in algebra) to start helping you find

all the possible combinations of genes. Your Punnett Square

will have up to 64 squares in it!!!

Mom: ________________ x Dad ________________

Polygenic—Eye Color

Mom: ______ x Dad ______

12

Chromosome

Number

Traits My Homologous

Chromosome Pair

(My Genotype)

SPERM

After Meiosis

My baby’s

(Genotype)

EGG

After Meiosis

My baby’s

(Genotype)

Spouse

Homologous

Chromosome Pair

(My Genotype)









9 Ear Lobe Attachment (ZZ. Zz. zz)






15 Hitchhiker’s Thumb

(OO, Oo, oo)



18 Long Second Toe (WW, Ww, ww)


20 Cheek Freckle Presence

(BB, Bb, bb)


22 Part of polygenics





Sperm and Egg cells are created through the process of Meiosis. During Meiosis, the homologous pairs of chromo-

somes separate, and there is a 50/50 chance per chromosome that the egg/sperm cell will receive a particular al-

lele. Rather than flip a coin, we are flipping your chromosomes to determine which allele is passed on to your child.

13

8. Find an example in your project where the child is recessive (2 little letters) and the parents

both show at least one dominant trait. That trait was ___________________________.

9. How is it possible to have the situation from question #8? (to display recessive traits when

one parent has a dominant trait)? HINT: Think about a punnett square if you cross Bb with Bb.

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

10. Explain how two parents with round noses can have a child with a pointed nose. Use a

punnett square and the word probability in your answer.

11. After you made your chromosomes, you had your baby and wrote down your alleles

(letters) on a blue or pink piece of paper, making a karyotype. Look at that piece of paper.

What is a karyotyping test? ________________________________________________________

12. What is one abnormal result (disease) that this test can help diagnose (tell you what dis-

ease you have)? ___________________________________________________________________

13. Although you have two alleles for each trait you only pass on one allele to your offspring.

How does this occur mitosis or meiosis? _________________ How does your offspring receive

the two necessary alleles for each trait? ________________________________________

_______________________________________________________________________________________

14. If you use the same chromosomes and have a second child, will all the letters land the

same way as your first child? __________________. Based on that information, will the 2nd child

look the same? _______________________________________________________________

Why or why not (hint: use the word probability)?

________________________________________________________________________________________

________________________________________________________________________________________

__________________________________________________________________________________________

_________________________________________________________________________________________

________________________________________________________________________________________

14

HELPFUL HINT:

Your child should be drawn as if he/she is age 12 or 13. You MUST

include a key that indicates which 10 traits you are including in

your drawing (you may certainly include more than 10, but no less!. 15

15. In some cases, offspring do not look like their mother nor their father. How might this oc-

cur (explain in terms of genetics)? Give an example of a time that this occurred in your pro-

ject!

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

16. Each person in our class completed this project. Do any offspring look exactly alike?

_______________ What might cause these differences (variation) in offspring (kids)?

17. Think back to the difference between an inherited trait and an environmental trait (you

may use your notes packet). List 2 inherited traits from your project. _______________,

_____________.

18. List 2 possible environmental traits your child might have: _______________, _____________.

19. You drew a final picture of your offspring at the age of 13, how might environmental

factors affect how your offspring could look by that age?

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

20. You were asked by your teacher not to genetically engineer your child. What is genetic

engineering?________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

21. Do you believe humans should be able to decide what traits their children should re-

ceive? ______________ Why or Why not? ________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

________________________________________________________________________________________

16

Chromosome Number Traits ACTUAL Genotype ACTUAL Phenotype









9 Ear Lobe Attachment (ZZ. Zz. zz)






15 Hitchhiker’s Thumb (OO, Oo, oo)



18 Long Second Toe (WW, Ww, ww)


20 Cheek Freckle Presence (BB, Bb, bb)


22 Part of polygenics Part of polygenics Part of polygenics





HELPFUL HINT:

The polygenic traits are spread out on a bunch of chromosomes, but you

need to put them back together to figure out what the phenotypes are.

Instead of writing them twice, just put the eye color (B’s and G’s from 11

and 12), skin color (A’s from 1,2, and 4), and hair color (H’s from 3,6,8, and

22) on the bottom under polygenic).

17

Project Grading Information:

______

125 points

Use the key to analyze your genes on each chromosome .

While doing this, you will need to analyze your parents traits (to determine if you are homozygous

or heterozygous for a particular trait). Note: If you live with 1 parent, are adopted, etc., you

may assume your parents’ genotypes are heterozygous (if you want to prove that your mom/

dad is homozygous dominant (RR rather than Rr), you must investigate your grandparents

also (no, I will not be giving extra credit for grandparents’ genetic make-up).

Complete the Phenotype and Genotype trait analysis for yourself, your parents, and your spouse (100 points).


______

125 points

Complete Punnett squares to predict your offspring’s potential traits, including the genotypic

and phenotypic Ratio for your potential child (you and your spouse are the parents). (100 points)


______ 25 points

Make chromosomes for you and for your spouse, and complete MEiosis.

______

25 points

Complete all Karyotype Charts and Tables.

Have your baby; and determine your baby’s genotypes and phenotypes.

______

50 points

Draw your offspring or use pictures to make him/her and INCLUDE A KEY for at least 10 traits.

_____ 10 points – attempt to draw your child as a 12-13 year old boy or girl

_____ 10 points – 10 traits are picked (any 10) and listed on a key

_____ 30 points – the 10 traits you picked are clearly shown (or labeled) on your drawing – 3

points per trait.

______

50 points

Complete the Questions at the end of this section and turn in your completed project!

______ TOTAL POINTS: 400 = 100%

PROJECT DUE DATE:________________________

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