1. Introduction to Heredity Vocabulary

2. Heredity-

3. Heredity- Characteristics and genes that are passed down from one generation to the next

4. Heredity- Characteristics and genes that are passed down from one generation to the next
Genetics-

5. Heredity- Characteristics and genes that are passed down from one generation to the next
Genetics- The scientific study of heredity

6. Heredity- Characteristics and genes that are passed down from one generation to the next
Genetics- The scientific study of heredity
Gene-

7. Heredity- Characteristics and genes that are passed down from one generation to the next
Genetics- The scientific study of heredity
Gene- Sequence of DNA that codes for a protein and thus determines a trait

8. Heredity- Characteristics and genes that are passed down from one generation to the next
Genetics- The scientific study of heredity
Gene- Sequence of DNA that codes for a protein and thus determines a trait
Example: Leaf Color

9. Allele-

10. Allele- One of a number of different forms of a gene

11. Allele- One of a number of different forms of a gene
Example: Green Leaves or Yellow Leaves

12. Allele- One of a number of different forms of a gene
Example: Green Leaves or Yellow Leaves
Dominant Allele-

13. Allele- One of a number of different forms of a gene
Example: Green Leaves or Yellow Leaves
Dominant Allele- a trait that will always be expressed if it is present

14. Allele- One of a number of different forms of a gene
Example: Green Leaves or Yellow Leaves
Dominant Allele- a trait that will always be expressed if it is present
Recessive Allele-

15. Allele- One of a number of different forms of a gene
Example: Green Leaves or Yellow Leaves
Dominant Allele- a trait that will always be expressed if it is present
Recessive Allele-a trait that will only be expressed if the dominant allele is NOT present

16. Using symbols to represent alleles:
All the alleles of a gene are usually represented by the same letter.
 Dominant allele is represented by the capital letter.
Example: Green Leaves = G
 Recessive allele is represented by the lower case letter.
Example: Yellow Leaves= g

17. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.

18. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-

19. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait

20. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex.

21. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex. GG

22. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex. GG
Received a dominant allele from both parents

23. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex. GG
Received a dominant allele from both parents
Can be homozygous recessive ex.

24. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex. GG
Received a dominant allele from both parents
Can be homozygous recessive ex. gg

25. Key Idea: Diploid organisms have two alleles for each gene
Key Idea: Diploid organisms have two alleles for each gene. One allele, or a copy of a gene, came from the organism’s mother. The other allele came from the organism’s father.
 Homozygous-Organisms that have two identical alleles for a particular trait
Can be homozygous dominant ex. GG
Received a dominant allele from both parents
Can be homozygous recessive ex. gg
Received a recessive allele from both parents

26. Heterozygous-

27. Heterozygous- Organisms that have two different alleles for the same trait

28. Heterozygous- Organisms that have two different alleles for the same trait
Ex.

29. Heterozygous- Organisms that have two different alleles for the same trait
Ex. Gg

30. Heterozygous- Organisms that have two different alleles for the same trait
Ex. Gg
received a dominant allele from one parent and a recessive allele from the other

31. Heterozygous- Organisms that have two different alleles for the same trait
Ex. Gg
received a dominant allele from one parent and a recessive allele from the other
dominant allele is always listed first

32. Genotype-

33. Genotype- The genetic makeup of an organism

34. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: , , or

35. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, , or

36. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or

37. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg

38. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype-

39. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual

40. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: due to and genotypes

41. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to and genotypes

42. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to GG and genotypes

43. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to GG and Gg genotypes

44. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to GG and Gg genotypes
Recessive Phenotype: due to genotype

45. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to GG and Gg genotypes
Recessive Phenotype: Yellow leaves due to genotype

46. Genotype- The genetic makeup of an organism
With leaf color, as with any gene with 2 alleles, there are 3 possible genotypes: GG, Gg , or gg
Phenotype- Physical characteristics of an individual
Dominant Phenotype: Green leaves due to GG and Gg genotypes
Recessive Phenotype: Yellow leaves due to gg genotype

47. Autosomal Gene –

48. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome

49. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome
Ex. Brown Hair, B, and Blond Hair, b

50. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome
Ex. Brown Hair, B, and Blond Hair, b
Sex Linked Gene-

51. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome
Ex. Brown Hair, B, and Blond Hair, b
Sex Linked Gene- a gene that is found on a sex chromosome, most often the X chromosome

52. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome
Ex. Brown Hair, B, and Blond Hair, b
Sex Linked Gene- a gene that is found on a sex chromosome, most often the X chromosome
EX: Not Color Blind, XB, and Color Blind Xb

53. Autosomal Gene – a gene that is found on an autosome, or non-sex chromosome
Ex. Brown Hair, B, and Blond Hair, b
Sex Linked Gene- a gene that is found on a sex chromosome, most often the X chromosome
EX: Not Color Blind, XB, and Color Blind Xb
The vast majority of genes are on autosomal chromosomes, while very few genes are located on the X-chromosome. A problem will inform you if the gene is on the X-chromosome.