1. genetics
Section 5.1

2. Genetics

3. Genetics
the study of how traits are
inherited through the
interactions of alleles

4. heredity

5. heredity
the passing of traits
from parent to offspring

6. ALlele

7. ALlele
different forms of a trait that
make up a gene pair

9. Alleles separate into different sex cells
during meiosis.

10. Alleles separate into different sex cells
during meiosis.
The alleles that control the trait for
dimples include D, the presence of
dimples, and d, the absence of dimples.

11. Alleles separate into different sex cells
during meiosis.
The alleles that control the trait for
dimples include D, the presence of
dimples, and d, the absence of dimples.

14. Mendel studied one trait at a time.

16. Mendel used predictions when
dealing with his plants.

17. Mendel used predictions when
dealing with his plants.
It was accurate because it
studied almost 30,000 pea
plants over a period of 8
years.

18. Mendel used predictions when
dealing with his plants.
It was accurate because it
studied almost 30,000 pea
plants over a period of 8
years.
Valid scientific conclusions
need to be based on results
that can be duplicated.

19. hybrid

20. hybrid
offspring that receives different
genetic information, or
different alleles, for a trait
from each parent

21. dominant

22. dominant
the form, or allele, that
dominates (covers up)
the other form

23. recessive

24. recessive
the form, or allele, that
seems to disappear or
be hidden

25. Turn to Page 131

26. Punnett square

27. Punnett square
tool used to predict results
in Mendelian genetics

28. Punnett square
tool used to predict results
in Mendelian genetics
dominant trait

29. Punnett square
tool used to predict results
in Mendelian genetics
dominant trait
represented by a capital letter
for example: B

30. Punnett square
tool used to predict results
in Mendelian genetics
dominant trait
represented by a capital letter
for example: B
recessive trait

31. Punnett square
tool used to predict results
in Mendelian genetics
dominant trait
represented by a capital letter
for example: B
recessive trait
represented by a lowercase
letter for example: b

33. Genotype The code for the
genetic makeup of
an organism.
Example: GG

34. phenotype The way an
organism looks or
behaves as a result
of its genotype.
Example: green plant.

35. Homozygous
An organism with 2 alleles that are
the same. Examples: aa or AA.

36. Heterozygous
an organism with 2 different alleles.
Example: Tt

37. making a punnett
square
B b
B
b

38. making a punnett
square
B b
B BB Bb
b Bb bb

39. making a punnett
square