1. Fundamentals of Genetics

2. Genetics- Terms to know
Genetics- studies how characteristics are transmitted from parent to offspring
Trait- genetically determined variant of a characteristic (pink or white)

3. Gregor Mendel ( )
Old monk who studied peas (Pisum sativum)

4. Mendel’s Pea Plants- Characteristics
Mendel observed 7 different characteristics of pea plants, each with 2 different traits
Plant height
Traits: tall or short
Flower position along stem
Traits: axial or terminal
Flower color
Traits: Purple or white

5. Mendel’s Pea Plants- Characteristics
Mendel observed 7 different characteristics of pea plants, each with 2 different traits
Pod color
Traits: green or yellow
Pod appearance
Traits: inflated or constricted
Seed texture
Traits: Round or wrinkled
Seed color
Traits: Yellow or green

6. Mendel’s Garden Peas- Terms
Pollination- when male pollen (from anthers) is transferred to female reproductive parts (stigma) of a flower (sexual reproduction in plants)

7. Mendel’s Garden Peas- Terms
Self-pollination- male pollen of a flower is transferred to female stigma of flowers on the same plant
Common in pea plants
Cross pollination- transfer of male pollen to a stigma of a different plant

8. Mendel’s Garden Peas- Terms
Self-pollination- male pollen of a flower is transferred to female stigma of flowers on the same plant
Common in pea plants
Cross pollination- transfer of male pollen to a stigma of a different plant

9. Mendel’s Garden Peas- Terms
To control his study, Mendel had to prevent self- pollination sometimes. To cross- pollinate, he would manually transfer pollen from one plant to another then cut off the anthers of the flowers.

10. Mendel’s Garden Peas- Terms
True-breeding- plants that always produce offspring with a certain trait when self-pollinated
Ex. A plant with purple flowers that always produces offspring with purple flowers when self-pollinated
Produced by self-pollinating plants for many generations until all offspring share the same trait

11. Mendel’s Garden Peas- Terms
P generation- parent generation
F1 generation- first generation of offspring (generation after P)
F2 generation- second generation of offspring (generation after F1)

12. Mendel’s Experiments
Self-pollinated plants until they were true-breeding
Seeds that always produce purple flowers
Seeds that always produce white flowers
Cross-pollinated true- breeding plants (P generation) with contrasting traits
Purple flowers X white flowers
Observed offspring (F1 generation)
All purple
Self-pollinated F1
Purple X Purple
Observed F2
3 purple:1 white ratio

13. Mendel’s Conclusions
Keep in mind… no one knew what genes were.
Mendel hypothesized that there were alleles in the pea plants that controlled traits
He called them factors
We now call them alleles
Since each characteristic had two traits, Mendel believed that each allele came in pairs.

14. Modern Genetics
Molecular genetics- study of the structure and function of chromosomes and genes
Gene- segment of DNA on a chromosome that controls a particular heredity of a trait
Occur in pairs
Allele- each of two or more alternative forms of a gene
Represented by letters
Capital letters = dominant alleles
P = purple flowers
Lower case letters = recessive alleles
p = white flowers

15. Mendel’s Conclusions Recessive and Dominant Traits.
Recessive and Dominant Traits
One allele in a pair prevents the other from having an effect
Dominant allele- masked the allele for the other trait in a pair
Recessive allele- allele that is masked by a dominant allele

16. Gamete- sex cell with ½ the number of chromosomes as parent.
Has one allele for each trait.
Formed during meiosis

17. Mendel’s Conclusions Law of Segregation.
Law of Segregation
Paired alleles separate during the formation of gametes
When two gametes combine, offspring have tow alleles for each characteristic

18. Just because you have one trait, doesn’t mean you have another.
Mendel’s Conclusions .
Law of Independent Assortment
alleles separate independently of one another during the formation of gametes
alleles for individual characteristics are not connected
For example, tall (dominant) plants do not always have purple (dominant) flowers
Just because you have one trait, doesn’t mean you have another.

19. Phenotype- what the organisms looks like
Genotype- what alleles the organisms has
Letters depict the alleles
Genotype PP = phenotype purple
Genotype Pp = phenotype purple
Genotype pp = phenotype white

20. Homozygous- when both alleles are the same
Aka. Purebred
Heterozygous- when both alleles are different
Aka. hybrid