1. 73B- Cell Processes & Genetics
Part 1-Explain how cellular processes (including respiration, photosynthesis in plants, mitosis, and waste elimination) are essential to the survival of the organism.
Part 2- Summarize how genetic information is passed from parent to offspring by using the terms genes, chromosomes, inherited traits, genotype, phenotype, dominant traits, and recessive traits.
Part 3- Use Punnett squares to predict inherited monohybrid traits.Distinguish between inherited traits and those acquired from environmental factors.

2. Genes & Heredity
7-2.5 Summarize how genetic information is passed from parent to offspring by using the terms genes, chromosomes, inherited traits, genotype, phenotype, dominant traits, and recessive traits.

3. Traits & Inheritance
What is the first thing you think of when you hear the word “inheritance” ?
Draw a picture of what pops into your mind.

4. Traits & Inheritance
It is essential for students to know that offspring may have the same physical characteristics, or traits, as their parents because genetic information (DNA) is passed from parent to offspring during sexual reproduction.

5. Traits & Inheritance
List some physical characteristics or traits the children on the slide have with their parents.

6. Genes & Heredity
Traits- Physical characteristics passed down by parents
- In your notes model & label three examples from the power point.
What Makes this girl’s hair blonde or burnette?

7. Genes & Heredity
Each sex cell (egg or sperm) of the parent organism (plant or animal) contains one-half of the genetic material needed to create a new organism.

8. Genes & Heredity
Heredity is the passing of different traits from one generation to another, or inheritance.

9. Chromosomes
Chromosomes- A structure found in the nucleus of a cell that contains the genetic information (DNA).

10. Genes
Gene- A segment of DNA found on a chromosome that determines the inheritance of a particular trait.

11. Genes
Genes are responsible for the inherited characteristics that distinguish one individual from another.

12. Genes
Genes for a specific trait generally come in pairs.

13. Genes One gene from the pair is called an allele.

14. Heredity Continued…
Use Punnett squares to predict inherited monohybrid traits.
Distinguish between inherited traits and those acquired from environmental factors.

15. Genes Genes may be expressed in two different forms.
Genotype—the set of genes carried by the organism.
Phenotype—the physical expression of the genes. GG
Green eyes

16. Dominant & Recessive Traits
Characteristics that are passed from parent to offspring.

17. Dominant & Recessive
What are some inherited traits you can think of?

18. Dominant & Recessive
Examples of inherited traits may be eye color, eye shape, hair type, or face shape.

19. Dominant & Recessive Traits
Some inherited traits are dominant and some are recessive.

20. Dominant & Recessive Traits
Describe what you think dominant and recessive mean…

21. Dominant & Recessive Traits
Dominant trait—A trait that will always be expressed in the phenotype. Alleles for dominant traits are represented by capital letters.

22. Dominant & Recessive Traits
Recessive trait—A trait that will only be expressed in the phenotype if two recessive alleles are present. In the presence of a dominant trait, the recessive trait will not be expressed. Alleles for recessive traits are represented by lowercase letters.

23. Punnett Squares
A Punnett square is a tool used to predict the ratio or percentage of the possible genes that an offspring will have based on the genes of the parent.

24. Punnett Squares
In a Punnett square, the top of the table shows the alleles provided by one parent

25. Punnet Squares
The alleles for the other parent are placed along the left side of the table.

26. Punnett Squares One allele from each parent is placed
in the individual squares, forming a new
gene pair.

27. Punnett Squares The individual squares show the
possibilities of allele pairs in the offspring

28. As the Punnett square shows what is inside the boxes are all possible genotypes for the color of the offspring.

29. Inheritance
It is sometimes difficult to predict certain traits in humans (for example hair color or eye color) because there may be several different genes that control these traits.