1. Looking closer at DNA …

2. Journal question …
If you could have ONE animal trait genetically given to you, what would it be?

3. Finish trait activity …
Honors … please take your science fair boards home  ASAP! They get donated to Ms. Kuhl at the end of the week!!
Retakes for Genetics Quiz #2 require a passport sheet. Need to finish to retake quiz.

4. Make a BINGO card Gene Trait Allele Dominant Recessive Phenotype
Genotype
Purebred
Homozygous
Heterozygous
Heredity
Mendel
Haploid
Diploid
Punnett Square
Hybrid
We will get definitions as we go today …

5. Heredity :
the passing of traits from parent to offspring
Traits are controlled by genes (small section of DNA) SO what is GENETICS?
Genetics: The study of how traits are inherited.

6. Traits Hair color is a perfect example of a trait
What color hair should their children have?
Prince Charming is blond
Snow White has dark hair

7. Genes There are two basic kinds of genes:
Dominant - A gene that is always expressed and hides others
Recessive - A gene that is only expressed when a dominant gene isn’t present

8. WHAT ARE ALLELES?
Are ONE FORM of a gene (one form can be dominant and the other is recessive)
Sex cells (sperm and egg)
have one form of each gene
on their 23 chromosomes
When the sperm fertilizes the egg, the two alleles that match come
together and …

9. A couple more vocabulary words…
Haploid = half of the number of chromosomes. (ex. 23 in a human) Eggs and sperm have a haploid number of chromosomes
Diploid = the full number of chromosomes for a cell (ex. 46 in a human) Most of your body cell have a diploid number of chromosomes.

10. Make a trait!!
Example:
Eyecolor—Brown color is dominant and blue is recessive.
A person can have a brown allele and a blue allele but still have brown eyes because the brown allele is dominant and “hides” the blue allele.

11. Example: R= dominant r = recessive
Generally, dominant alleles are represented with a capital letter, and recessive alleles are represented with a lower case letter.
Example: R= dominant r = recessive

12. Let’s look at the Munster family

13. Dominant and Recessive Genes
Eddie has a widow’s peak.
A “widows peak” is dominant, not having a widows peak is recessive.
If one parent contributes a gene for a widows peak, and the other parent doesn’t, the off spring will have a widows peak.
Widows Peak

14. Wait a minute … distant relative??

15. “Purebred” species have two exact alleles for the same trait
Represented by two of the same letters. This is called homozygous. For instance: BB or bb.
Species with two different alleles or two different forms of the gene would be “hybrid”
Represented by two different “letters” and is called “heterozygous”. For instance: Bb

16. The alleles present in the organism are referred to as its genotype (the letters). For instance, BB, Bb, or bb.
What the trait looks like to us is referred to as it’s phenotype. Example: blue eyes or brown eyes

17. Father - No Widows Peak – w
A widows peak, dominant, would be symbolized with a capital “W”, while no widows peak, recessive, would be symbolized with a lower case “w”.
Father - No Widows Peak – w
Mother - Has a Widows Peak - W

18. Since Herman has no widows peak, he must be “ww” (one allele from Mom and one from Dad). Lilly has a widows peak she could be either “WW” or “Ww” (remember the dominant or capital letter is expressed)
Definitely ww = Homozygous
recessive
Either Ww = Heterozygous
or WW = Homozygous dominant

19. Unofficial Vocabulary Quiz

20. 1. Which of the following is a possible abbreviation for a genotype?
A. BC B. Pp C. Ty D. fg

21. 2. What is the best way to determine the phenotype of the feathers on a bird?
A. analyze the bird's DNA (genes) B. look at the bird's feathers C. look at the bird's beak D. examine the bird's droppings

22. 3. Which of the following pairs is not correct?
A. hybrid = heterozygous B. heterozygous = Hh C. homozygous = RR
D. kk = hybrid

23. 4. The genes present in an organism represent the organism's __________.
A. genotype B. phenotype C. physical traits

24. 5. Which choice represents a possible pair of alleles?
A. k & t B. K & T C. K & k D. K & t

25. 6. How many alleles for one trait are normally found in the genotype of an organism?
A. 1 B. 2 C. 3 D. 4

26. Probability Beast
Get your homework worksheet and draw your beast on the back of it.
Finish your BINGO card for homework too!

27. Genetics
So, back to the original question. What color hair will the offspring of Prince Charming and Snow White have?

28. Genetics
Hair color is different from widows peak, no color is truly dominant.
Brown and blond are the two, true traits
Homozygous conditions produce either brown or blond hair
Heterozygous conditions produce red hair (called codominant)

29. Genetics
For Snow White to have brown hair she must be homozygous dominant, “BB”, a blond Prince Charmin must be homozygous recessive, “bb”. B B b Bb Bb b Bb Bb

30. Genetics
All the offspring from Prince Charming and Snow White will therefore be heterozygous, “Bb”, and since hair color is codominant….. all their children will have red hair. +

31. GREGOR MENDEL First known geneticist and “father of genetics”
Was an Austrian monk and was born in 1822
Did most of his genetic studies on pea plants

33. By looking at the color of flowers and the heights of his plants, Mendel noticed that different traits showed up a different percent of the time.
Using his superior math skills, he figured out which traits were dominant and which ones were recessive.

34. PROBABILITY Helps predict the chance that something will happen
Example: the probability of throwing heads or tails on a coin is 50% (1/2 chances)
Your predictions become more accurate with the more trials you run!

35. Punnett Squares
Used to help predict Mendelian genetics

36. Steps for using the Punnett square:
One parent’s alleles (genotype) go along the top
The other parent’s alleles go down the side.
You fill in the squares like doing the communicative property of multiplication.
B b B BB Bb b Bb bb

37. Steps for using the Punnett square:
Let’s say the parents are Bb and Bb (the same genotype).
What would be their phenotype?
Brown Eyes
B b
So you would predict:
¼ offspring to be BB, or Brown Eyes
2/4 or 1/2 to be Bb, or Brown Eyes
and ¼ to be bb or Blue eyes B BB Bb b Bb bb

38. Let’s try some practice problems…

39. Practice Problem #1
Predict the fur color of the offspring of a brown heterozygous hamster and a white homozygous hamster. Brown is dominant. White is recessive.
Use any letter you like.

40. Practice Problem #1
B b Bb bb b

41. Practice Problem #2
Predict the offspring of 2 white homozygous cows. Black is dominant over white.
Use any letter you like.

42. Practice Problem #2
b b bb b

43. Practice Problem #3
Predict the offspring of 2 Grey Heterozygous rats. Gray is dominant over white, which is recessive.
Use any letter you like.

44. Practice Problem #3
G g G g GG Gg gg

45. Practice Problem #4
Predict the pea shape of the offspring of one Heterozygous Round Pea plant and one homozygous wrinkled pea plant. Round is dominant over wrinkled.
Use any letter you like.

46. Practice Problem #4
R r Rr rr r

47. Practice Problem #5 you don’t have to write this one down…
What are the chances of having a boy or a girl?
How would you solve this one?

48. Practice Problem #5
X Y XX XY X