Presentation is loading. Please wait.

Presentation is loading. Please wait.

Genetic Pedigree Diagrams. What are genetic pedigree diagrams? Show how an inherited trait (characteristic) runs in a group of related individuals. You.

Published byMiles Reed Modified over 9 years ago

Similar presentations

Presentation on theme: "Genetic Pedigree Diagrams. What are genetic pedigree diagrams? Show how an inherited trait (characteristic) runs in a group of related individuals. You."— Presentation transcript:

1 Genetic Pedigree Diagrams

2 What are genetic pedigree diagrams? Show how an inherited trait (characteristic) runs in a group of related individuals. You might have to interpret genetic diagrams to work out the genotypes or potential phenotypes of individuals.

3 Cystic Fibrosis Inherited disorder that causes the production of a thick mucus, which affects the lungs and digestive system. It is caused by a faulty recessive allele (f). A person with CF is homozygous from the allele (ff). (Ff) is a carrier of CF.

4 12 3 5 6 4 Unaffected male Unaffected Female Male with CF Female with CF Key shows what the shapes represent Two parents are joined by a horizontal line Vertical line goes from parents to children Children have a vertical line above them This female is CF (ff), but neither of her parents do. She must have inherited an f allele from each parent, so both parents must be carriers (Ff). This male has CF (ff), like his mother (ff). He's inherited an f allele from each parent, so his father must be a carrier (Ff).

5 Possible Question Work out the chances of the next child born to individuals 4 and 5 having CF.

6 Question Huntington's disease is caused by a dominant allele. The genetic pedigree diagram shows the inheritance of Huntington's disease in one family. 1 3 2 45 1.What is the genotype of individual 1? 2.What would the possible genotypes of the offspring produced by a cross between individuals 3 and 5? Affected female Unaffected Male

7 Answers 1.Heterozygous, e.g. Hh The cross between individual 1 and 2 has produced one affected child. As the unaffected child must have two recessive alleles, one from each parent, individual 1 must have one recessive allele and one dominant allele (Hh) to have the disorder and pass on an unaffected allele. 2.Heterozygous (Hh) and Homozygous recessive (hh). Individual 5 is unaffected so must be homozygous recessive (hh). Individual 3 has the disorder so must have at least one dominant allele, but they must also have one recessive allele from their unaffected parent (individual 2), so must be heterozygous (Hh)

Download ppt "Genetic Pedigree Diagrams. What are genetic pedigree diagrams? Show how an inherited trait (characteristic) runs in a group of related individuals. You."

Similar presentations

Pedigrees Who do we inherit our traits from? DO YOU LOOK LIKE YOUR AUNT OR UNCLE? DO YOU AND YOUR COUSIN SHARE TRAITS?

Pedigrees Who do we inherit our traits from? DO YOU LOOK LIKE YOUR AUNT OR UNCLE? DO YOU AND YOUR COUSIN SHARE TRAITS?
Biology 2B Pedigrees.

Biology 2B Pedigrees.
Year 10 – Genetics and Biotechnology (Biology) Genetic disorders.

Year 10 – Genetics and Biotechnology (Biology) Genetic disorders.
Pedigree charts Pedigree notes handout. What is a pedigree? A pedigree is a family tree that shows how a trait is passed from generation to generation.

Pedigree charts Pedigree notes handout. What is a pedigree? A pedigree is a family tree that shows how a trait is passed from generation to generation.
A man with a Widow’s Peak and a woman with a Widow’s peak have only children who have Widow’s peaks. In another case, two people with Widow’s peaks have.

A man with a Widow’s Peak and a woman with a Widow’s peak have only children who have Widow’s peaks. In another case, two people with Widow’s peaks have.
Pedigrees.

Pedigrees.
The following is the pedigree of a trait contolled by recessive gene action.                                   

The following is the pedigree of a trait contolled by recessive gene action.                                   
Mendel (1822-1884) Mendel studied inheritance in peas. His idea was that organisms passed on separate characteristics via “inherited factors” (we now call.

Mendel ( ) Mendel studied inheritance in peas. His idea was that organisms passed on separate characteristics via “inherited factors” (we now call.
Here is the family tree for a family that has a history of cystic fibrosis Give the possible genotypes of all the individuals in the family tree: Let the.

Here is the family tree for a family that has a history of cystic fibrosis Give the possible genotypes of all the individuals in the family tree: Let the.
Cystic Fibrosis Casey Kriak Joe Scalora Seyi Akinsola January 27, 2010 Period 9-10.

Cystic Fibrosis Casey Kriak Joe Scalora Seyi Akinsola January 27, 2010 Period 9-10.
HUMAN GENETICS. Humans are not pea plants! Humans are not pea plants! Although in all organisms genes control the production of proteins that show up.

HUMAN GENETICS. Humans are not pea plants! Humans are not pea plants! Although in all organisms genes control the production of proteins that show up.
Wake-up 1.A woman carrying hemophilia marries a man who is a hemophiliac. What percentage of their children will have hemophilia? 1.Cross a man heterozygous.

Wake-up 1.A woman carrying hemophilia marries a man who is a hemophiliac. What percentage of their children will have hemophilia? 1.Cross a man heterozygous.
Genetics Part 3 Modes of Inheritance

Genetics Part 3 Modes of Inheritance
Thursday 2/2 How many copies of the chromosome for skin color do you have? Why do you have that many? What is similar and what is different about the.

Thursday 2/2 How many copies of the chromosome for skin color do you have? Why do you have that many? What is similar and what is different about the.
Pedigrees. What is a pedigree? A pedigree is a family tree that shows the inheritance of a trait.

Pedigrees. What is a pedigree? A pedigree is a family tree that shows the inheritance of a trait.
Genetics Jeopardy $100 12 345 $200 $300 $400 $500 $100 $200 $300 $500 $400 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500.

Genetics Jeopardy $ $200 $300 $400 $500 $100 $200 $300 $500 $400 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500.
Jumpstart 12/5 1. Gametes: For each of the genotypes presented below, determine all of the possible haploid gametes. For each of the genotypes presented.

Jumpstart 12/5 1. Gametes: For each of the genotypes presented below, determine all of the possible haploid gametes. For each of the genotypes presented.
7.1 Chromosomes and Phenotype KEY CONCEPT The chromosomes on which genes are located can affect the expression of traits.

7.1 Chromosomes and Phenotype KEY CONCEPT The chromosomes on which genes are located can affect the expression of traits.
The family tree of genetics

The family tree of genetics
Patterns of Heredity Pedigrees March 19, 2010. 12.1 Section Objectives – page 309 Interpret a pedigree. Section Objectives: Identify human genetic disorders.

Patterns of Heredity Pedigrees March 19, Section Objectives – page 309 Interpret a pedigree. Section Objectives: Identify human genetic disorders.

Similar presentations

Ads by Google