Presentation is loading. Please wait.

Presentation is loading. Please wait.

3.4 Inheritance Nature of science:

Published byAnis Bennett Modified over 5 years ago

Similar presentations

Presentation on theme: "3.4 Inheritance Nature of science:"— Presentation transcript:

1 3.4 Inheritance Nature of science:
Applications: Inheritance of ABO blood groups Red-green colour blindness and haemophilia as examples of sex linked inheritance Consequences of radiation after nuclear bombing of Hiroshima and Nagasaki and the nuclear accidents at Chernobyl Understanding: Mendel discovered the principles of inheritance with experiments in which large numbers of pea plants were crossed Gametes are haploid so contain one allele of each gene The two alleles of each gene separate into different haploid daughter nuclei during meiosis Fusion of gametes results in diploid zygotes with two alleles of each gene that may be the same allele or different alleles Dominant alleles mask the effects of recessive alleles but co-dominant alleles have joint effects Many genetic diseases in humans are due to recessive alleles Some genetic diseases are sex-lined The pattern of inheritance is different with sex-linked genes due to their location on the sex chromosome Many genetic diseases have been identified in humans but most are very rare Radiation and mutagenic chemicals increase mutation rate and can cause genetic disease and cancer Skills: Construction of Punnett grids for predicting the outcomes of monohybrid genetic crosses Comparison of predicted and actual outcomes of genetic crosses using real data Analysis of pedigree charts to deduce the pattern of inheritance of genetic diseases Nature of science: Making quantitative measurements with replicates to ensure reliability: Mendel’s genetic crosses with pea plants generated numerical data

2 Sex-linked diseases Haemophilia Red-green colour blindness
Mutated alleles carried on sex chromosomes (usually X) If the X chromosome usually carries the mutation, are males or females more likely to have sex-linked disorders?? Haemophilia Red-green colour blindness

3 Colour Vision

4

5 vision

6

7 Show how it would be possible for a colour blind girl to occur.

8

9

10

11 O O O

12 Haemophilia Inability to make Factor VIII, an important blood clotting protein. Mutated allele is recessive and found on the X chromosome. A heterozygous female has a child with a healthy male. What is the % chance of having a child who is a carrier?

13 Pedigrees Punnett squares look at the theoretical probability that a child will inherit a trait We use pedigrees to show inheritance of a disease/trait in a family

14 Pedigree Legend Male Female
Horizontal line between male and female indicates a mating Shaded symbols stand for individuals with the trait being traced; they are the affected ones.

15 Pedigree I II III Which female(s) have inherited the disease?
Which male(s) have inherited the disease? Is this disease dominant or recessive?

16 Pedigree Challenge! D = normal d = disease Genotype A F B G C H D # E

17 Pedigree Challenge! recessive disease D = normal d = disease Genotype
F dd  B  dd G C H D # E

18 State the missing phenotypes
Show how frank inherited CF

19

20 Q – pg 183

Download ppt "3.4 Inheritance Nature of science:"

Similar presentations

Topic 4.3 Theoretical genetics.

Topic 4.3 Theoretical genetics.
Genetics SC Biology Standard B-4.6-4.9- The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.

Genetics SC Biology Standard B The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.
4.3 T HEORETICAL G ENETICS. A SSESSMENT S TATEMENTS Define genotype, phenotype, dominant allele, recessive allele, codominant allele, locus, homozygous,

4.3 T HEORETICAL G ENETICS. A SSESSMENT S TATEMENTS Define genotype, phenotype, dominant allele, recessive allele, codominant allele, locus, homozygous,
4.3 Theoretical Genetics February 14th/2011

4.3 Theoretical Genetics February 14th/2011
Blood Group Notes.

Blood Group Notes.
3.4 Inheritance The inheritance of genes follows patterns.

3.4 Inheritance The inheritance of genes follows patterns.
Gregor Mendel and Genetics Gregor Mendel was a Swiss Monk who studied genetic traits in Pea Plants.

Gregor Mendel and Genetics Gregor Mendel was a Swiss Monk who studied genetic traits in Pea Plants.
Non-Mendelian Genetics.  Some traits don’t follow the simple dominant/recessive rules that Mendel first applied to genetics.  Traits can be controlled.

Non-Mendelian Genetics.  Some traits don’t follow the simple dominant/recessive rules that Mendel first applied to genetics.  Traits can be controlled.
3.4 Inheritance Understanding: -Mendel discovered the principles of inheritance with experiments in which large numbers of pea plants were crossed -Gametes.

3.4 Inheritance Understanding: -Mendel discovered the principles of inheritance with experiments in which large numbers of pea plants were crossed -Gametes.
1 This is Jeopardy Punnett Squares 2 Category No. 1 Category No. 2 Category No. 3 Category No. 4 Category No. 5 100 200 300 400 500 Final Jeopardy.

1 This is Jeopardy Punnett Squares 2 Category No. 1 Category No. 2 Category No. 3 Category No. 4 Category No Final Jeopardy.
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.
Brainteaser  Which way is the bus below traveling...toward the left or the right?

Brainteaser  Which way is the bus below traveling...toward the left or the right?
D. Multiple Alleles – Instead of having two forms of an allele, there are more than two for one gene. i. The best example for humans is blood. There 3.

D. Multiple Alleles – Instead of having two forms of an allele, there are more than two for one gene. i. The best example for humans is blood. There 3.
Genetics and Inheritance

Genetics and Inheritance
Click F5 Try to answer each question on your own before revealing the answer.

Click F5 Try to answer each question on your own before revealing the answer.
4.3 Theoretical Genetics February 2015 Adapted from: Taylor, S. (2010). Theoretical Genetics (Presentation). Science Video Resources. [Online] Wordpress.

4.3 Theoretical Genetics February 2015 Adapted from: Taylor, S. (2010). Theoretical Genetics (Presentation). Science Video Resources. [Online] Wordpress.
Genetics Study Guide Key to Success on the Test. 1. What scientist experimented with pea plants to establish modern genetics? Gregor Mendel.

Genetics Study Guide Key to Success on the Test. 1. What scientist experimented with pea plants to establish modern genetics? Gregor Mendel.
Cell Division.

Cell Division.
3.4 & 10.2 Inheritance Topics 3 & 10 Genetics. 1 – Understanding Genes Read & Consider Understandings 3.4.1-3.4.4 & 10.2.1-10.2.4 How many alleles of.

3.4 & 10.2 Inheritance Topics 3 & 10 Genetics. 1 – Understanding Genes Read & Consider Understandings & How many alleles of.
Genes in Action Chapter 14. Sex Linked Traits Another way for traits to be passed on is by being sex linked Female Chromosomes: XX Male Chromosomes: Xy.

Genes in Action Chapter 14. Sex Linked Traits Another way for traits to be passed on is by being sex linked Female Chromosomes: XX Male Chromosomes: Xy.

Similar presentations

Ads by Google