Presentation is loading. Please wait.

Presentation is loading. Please wait.

Human Genetics and genetic disorders. If we were to crack open ANY one of your non-gamete cells…

Published byLouisa Tabitha Morrison Modified over 8 years ago

Similar presentations

Presentation on theme: "Human Genetics and genetic disorders. If we were to crack open ANY one of your non-gamete cells…"— Presentation transcript:

1 Human Genetics and genetic disorders

2 If we were to crack open ANY one of your non-gamete cells…

3  These chromosomes contain all of your 20,000 to 25,000 of your genes

4 Which if organized looks like

5 Quick quiz Is this a boy or a girl? What phase of the cell cycle is shown in the circle? What phase is the cell in when the chromosomes look like they do in the box?

6 Is this a boy or a girl? What phase of the cell cycle is shown?

7 Key terms Karyotype Sex chromosomes vs. autosomes Gamete vs. somatic cell

8 X-chromosome inactivation Why is this necessary?

9 Polygenic traits Height inheritance is not as straightforward, as it is inherited by multiple genes working together.

10 Blood type is a unique trait in that there are three alleles, two of which are co-dominant

11

12 Genetic Disorders

13 Single gene mutations Can be either on an autosome or a sex chromosome – The latter would be termed sex-linked – Why is this a huge disadvantage to males?

14 What is atypical about this person?

15 Chromosomal mutations Result from non-disjunction during anaphase I

16 Pedigree charts Show passage of a given trait through a family. – They reveal mode of inheritance

17

18 = Huntington’s Disease 1. How many girls did II-1 and II-2 have? How many have Huntington’s Disease? 2. How are individuals III-2 and II-4 related? I-2 and III-5? 3. How many children did individuals I-1 and I-2 have? 4. There are no carriers for Huntington’s Disease- you either have it or you don’t. With this in mind, is Huntington’s disease caused by a dominant or recessive trait? 5. Is this disease on x-chromosome, y-chromosome, or on an autosome?

19 Describe the “mode of inheritance:”

20

21

22 Hemophilia, the royal disease Hemophilia is a hereditary bleeding disorder. Caused by a recessive gene on the X chromosome. There are about 20,000 hemophilia patients in the United States. The severity of hemophilia is related to the amount of the clotting factor in the blood. About 70% of hemophilia patients have less than one percent of the normal amount and, thus, have severe hemophilia.

23 Another view…

24 Color Blindness 1/10 males have, 1/100 females have. Why the difference? Individuals are unable to distinguish shades of red-green, usually, sometimes purple or blue. Are you color blind?

Download ppt "Human Genetics and genetic disorders. If we were to crack open ANY one of your non-gamete cells…"

Similar presentations

SPONGE 4 What is the difference between incomplete dominance and codominance? (7.2) Give an example of each.

SPONGE 4 What is the difference between incomplete dominance and codominance? (7.2) Give an example of each.
Two copies of each autosomal gene affect phenotype.

Two copies of each autosomal gene affect phenotype.
KEY CONCEPT Phenotype is affected by many different factors.

KEY CONCEPT Phenotype is affected by many different factors.
What’s Your Blood Type? A B AB O.

What’s Your Blood Type? A B AB O.
Pedigrees.

Pedigrees.
Human Genetics Chapter 14.

Human Genetics Chapter 14.
 Genes are found on the X AND Y chromosomes.  Genes that are carried on the sex chromosomes are called sex linked genes.

 Genes are found on the X AND Y chromosomes.  Genes that are carried on the sex chromosomes are called sex linked genes.
Human Heredity.

Human Heredity.
Chapter 14: The Human Genome

Chapter 14: The Human Genome
Human Inheritance and Human Genetic Disorders

Human Inheritance and Human Genetic Disorders
Human Chromosomes & Genetics. I. Intro to Human Genetics A. Of all the living things, there is one in particular that has always drawn our interest, that.

Human Chromosomes & Genetics. I. Intro to Human Genetics A. Of all the living things, there is one in particular that has always drawn our interest, that.
1. Who is named the “Father of Genetics?” 2. Why did he use pea plants?

1. Who is named the “Father of Genetics?” 2. Why did he use pea plants?
Different Patterns of Inheritance

Different Patterns of Inheritance
Unit 6: Inheritance Part 2: Complex Patterns of Inheritance.

Unit 6: Inheritance Part 2: Complex Patterns of Inheritance.
CHAPTER 12 SEX-LINKED TRAITS

CHAPTER 12 SEX-LINKED TRAITS
Pedigrees and Sex Linked Traits

Pedigrees and Sex Linked Traits
1/14/15 Objective: How do sex-linked genes produce different inheritance patterns in males and females? Do Now: Take out assigned homework.

1/14/15 Objective: How do sex-linked genes produce different inheritance patterns in males and females? Do Now: Take out assigned homework.
Complex Inheritance and Human Heredity Chapter 11.

Complex Inheritance and Human Heredity Chapter 11.
Human Inheritance Chapter 14 sec. 1 and 2. Pedigree Analysis Pedigree = a family record that shows how a trait is inherited over several generations.

Human Inheritance Chapter 14 sec. 1 and 2. Pedigree Analysis Pedigree = a family record that shows how a trait is inherited over several generations.
Sex Linked Traits. Karyotype pictures Male and Femals Sex Cells.

Sex Linked Traits. Karyotype pictures Male and Femals Sex Cells.

Similar presentations

Ads by Google