Presentation is loading. Please wait.

Presentation is loading. Please wait.

Multi-trait Inheritance Biology 11: Section 5.7. Learning Goals Students will complete dihybrid crosses Students will use product law to predict offspring.

Published byCorey Park Modified over 8 years ago

Similar presentations

Presentation on theme: "Multi-trait Inheritance Biology 11: Section 5.7. Learning Goals Students will complete dihybrid crosses Students will use product law to predict offspring."— Presentation transcript:

1 Multi-trait Inheritance Biology 11: Section 5.7

2 Learning Goals Students will complete dihybrid crosses Students will use product law to predict offspring traits Students will know the difference between discontinuous and continuous variation

3 Law of Independent Assortment If genes are located on separate chromosomes they are inherited independently of one another This happens because alleles assort themselves independently (recall meiosis) i.e. genes that control pea shape are inherited independently of those that control pea colour Can use a Punnett Square to predict genotypes and phenotypes for multiple traits

4 Punnett Squares Can be used to show inheritance of two traits Pea genotypes: Parent 1 – YYRR, Parent 2 - yyrr Gametes of Parent 1 – YR, Parent 2 - yr YR yrYyRr yrYyRr

5 To Do: Review Tutorial 1 on pages 211 and 212 Complete practice questions on page 212 (we’ll take these up)

6 Probability Punnett Squares can be used to determine the probability of inheriting a certain trait Probability = # ways an event can occur / total # possible events The probability of each event is not affected by results of other events

7 Product Law The probability of two random events both occurring the product of the individual probabilities of each event i.e. A couple’s chance of having a girls is 50% (½) for the first birth Change of the second birth being a girls is also 50% (½) The chance of having 2 girls is ½ x ½ = ¼ or 25% Probability predicted by the Product Law is the same as that predicted by the Punnett Square

8 Example 2 Determine the phenotypes and genotypes of the offspring when the parents are both heterozygous for both traits

9 Discontinuous Variation Genes that control two or more characteristics do not interact with each other i.e. pea plants: tall or short, green or yellow

10 Continuous Variation Product of one gene affects the product of another gene i.e. skin colour, height, hair colour, eye colour Traits display incomplete dominance

11 To Do: Read section 5.7 Complete questions 2-8 on page 214 Define additive allele

Download ppt "Multi-trait Inheritance Biology 11: Section 5.7. Learning Goals Students will complete dihybrid crosses Students will use product law to predict offspring."

Similar presentations

The Law of Independent Assortment

The Law of Independent Assortment
Mendelian Genetics The principles of probability can be used to predict the outcome of genetic crosses Probability - The likelihood that a particular event.

Mendelian Genetics The principles of probability can be used to predict the outcome of genetic crosses Probability - The likelihood that a particular event.
Chapter 11: Introduction to Genetics

Chapter 11: Introduction to Genetics
Genetics College Biology. Gregor Mendel Mid 1800’s, Austrian monk. Introduced probability to genetics Mated pea plants.

Genetics College Biology. Gregor Mendel Mid 1800’s, Austrian monk. Introduced probability to genetics Mated pea plants.
Genetics Chapter 11.

Genetics Chapter 11.
Mendelian Genetics. Vocabulary Terms 1.Allele- different forms of a gene 2.Phenotype- observable trait or characteristic 1.I.e. Green eyes, black hair.

Mendelian Genetics. Vocabulary Terms 1.Allele- different forms of a gene 2.Phenotype- observable trait or characteristic 1.I.e. Green eyes, black hair.
Genetics Chapter 11. Gregor Mendel  “Father” of genetics  Austrian monk, mid-1800s  Researched pea plant inheritance –Easy to grow, fast reproduction.

Genetics Chapter 11. Gregor Mendel  “Father” of genetics  Austrian monk, mid-1800s  Researched pea plant inheritance –Easy to grow, fast reproduction.
Applying Mendel’s Principles Probability, Punnett Squares, & Independent Assortment (Dihybrid Cross) Section 11.2.

Applying Mendel’s Principles Probability, Punnett Squares, & Independent Assortment (Dihybrid Cross) Section 11.2.
1 Father of genetics. Studied traits in pea plants.

1 Father of genetics. Studied traits in pea plants.
Meiosis, Genetics, & Probability Biology. How are meiosis & genetics related? 1. Meiosis produces gamete cells.

Meiosis, Genetics, & Probability Biology. How are meiosis & genetics related? 1. Meiosis produces gamete cells.
Genetics How Traits are Passed from Parents to Offspring.

Genetics How Traits are Passed from Parents to Offspring.
Mendel & Genetics Review Powerpoint

Mendel & Genetics Review Powerpoint
Heredity and Genetics.

Heredity and Genetics.
WHAT IS PROBABILITY? Punnett Squares & Probability.

WHAT IS PROBABILITY? Punnett Squares & Probability.
Warm-up Turn in your meiosis simulation activity and your punnett piggy activity sheets.

Warm-up Turn in your meiosis simulation activity and your punnett piggy activity sheets.
CHAPTER 18 Section 18.5 Dihybrid Crosses and Polygenic Traits.

CHAPTER 18 Section 18.5 Dihybrid Crosses and Polygenic Traits.
Mendelian Genetics Ch 14.

Mendelian Genetics Ch 14.
Genetics. What is Genetics  Genetics is the scientific study of heredity.  Heredity is what makes each species unique.

Genetics. What is Genetics  Genetics is the scientific study of heredity.  Heredity is what makes each species unique.
Genetics Chapter 11. What is Genetics  Genetics is the scientific study of heredity.  Heredity is what makes each species unique.

Genetics Chapter 11. What is Genetics  Genetics is the scientific study of heredity.  Heredity is what makes each species unique.
Hosted by Mrs. McFarland 100 200 400 300 400 Sec. 3.1 Sec. 3.2Sec. 3.4Sec. 3.3 300 200 400 200 100 500 100.

Hosted by Mrs. McFarland Sec. 3.1 Sec. 3.2Sec. 3.4Sec

Similar presentations

Ads by Google