BS1 - Genotype and Phenotype

Today's lesson

1. Introduce new topic: Heredity and evolution

2. Review DNA

3. Discuss Genotype and Phenotype

1 / 39

Slide 1: Slide

BiologieMiddelbare schoolvwoLeerjaar 3

This lesson contains 39 slides, with interactive quizzes, text slides and 8 videos.

Items in this lesson

Today's lesson

1. Introduce new topic: Heredity and evolution

2. Review DNA

3. Discuss Genotype and Phenotype

Slide 1 - Slide

Basics of heredity

Gene: part of your DNA with info on one trait
You get one set of genes from your mom and one set of genes from your dad
For every trait you have two genes (pieces of info)
These pieces of info can be different variations of the gene
The combination of the two pieces decides what that trait will be for you

Slide 2 - Slide

Example:

Trait : Hair color - brown
Gene : part of the DNA carrying the info for this trait
Variations in this gene: blond, brown, red, black
Mother's hair : blond x Father's hair : brown
You : one gene (blond) x one gene (brown) = Brown hair

Slide 3 - Slide

Slide 4 - Video

00:44

How does DNA act as a blueprint for life?

By making proteins

By making carbohydrates

By making new cells

By making amino acids

Slide 5 - Quiz

01:02

Amino acids attach to eachother to create...

Slide 6 - Open question

01:24

What is a name of a group of organs function together as one?

Slide 7 - Open question

01:43

Give 2 examples of proteins in your body.

Slide 8 - Open question

02:39

Give the code to the 2nd strand of this piece of DNA:
A T T C C G T A C

Slide 9 - Open question

03:15

What is the RNA code from this piece of DNA:
A T G C A G

Slide 10 - Open question

03:42

In which organelle is the protein folded?

Rough ER

Smooth ER

Golgi Apparatus

Slide 11 - Quiz

Genetic material

Genetic material is located in the nucleus of every cell.
Each nucleus has chromosomes that contain DNA.
The genetic material is located in DNA molecules.
Nuclei of human cells have 46 chromosomes.

Slide 12 - Slide

Each human being has 46 chromosomes. How many did you get from your mother?

Slide 13 - Quiz

12.1 genotype phenotype

Slide 14 - Slide

Genotype

complete set of your inherited characteristics
information from DNA
you are born with it

Phenotype

your appearance
seen from the 'outside'
combination of genotype + environmental factors

Slide 15 - Slide

genotype

phenotype

XY chromosomes

cannot change!

you inherit this

can sometimes change during your life

you do not inherit this

a scar

Is not always visible

Slide 16 - Drag question

Slide 17 - Video

genotype and phenotype

Slide 18 - Slide

Identical twins do have the same genotype but not necessarily the same phenotype

true

false

Slide 19 - Quiz

12.1

dominant

ressecive

Slide 20 - Slide

Dominant alleles

A dominant allele is always expressed, even if only one copy is present. Dominant alleles are represented by a capital letter, for example, A. The allele for wet earwax is dominant. You only need one copy of this allele to have wet earwax. Two copies will also give you wet earwax.

Slide 21 - Slide

Recessive alleles

A recessive allele is only expressed if the individual has two copies and does not have the dominant allele of that gene. Recessive alleles are represented by a lower case letter, for example, a. The allele for dry earwax is recessive. You need two copies of this allele to have dry earwax.

Slide 22 - Slide

Slide 23 - Video

12.1 homozygous / heterozygous

Slide 24 - Slide

homo and heterozygous

Homozygous alleles are both identical for the same characteristic, for example AA or aa. A homozygote is an individual who has identical alleles for a particular gene.

Heterozygous alleles are both different for the same characteristic, for example Aa. A heterozygote is an individual who has different alleles for a particular gene.

Slide 25 - Slide

Slide 26 - Video

Do Now:

Finish quetsions 11.1 till 11.4 and 12.1

Slide 27 - Slide

12.2

It runs in the family

Slide 28 - Slide

content

Introduction video

genetic variation and diseases

punnett square

pedigree chart

Slide 29 - Slide

Introduction

Slide 30 - Slide

Slide 31 - Video

Mono genetic

When a disorder is determined by one gene, it is called monogenic.

Example = albinism

Slide 32 - Slide

Recessive inheritance

Lisa (figure 3) suffers from phenylketonuria (PKU). Her parents, brothers, and sister are healthy. Children with PKU are born healthy. After about six months, however, the intellectual development lags behind due to damage to the brain. If PKU is discovered early, brain damage can be prevented with a special diet. That is why every baby’s blood is tested for PKU in the first week after birth: the so-called heel prick test.

Slide 33 - Slide

Gender-linked recessive inheritance

Some disorders, such as colour-blindness, mainly occur in boys and men. This is because the gene for having or not having disorders such as colourblindness lies on the X chromosome. A male has only one X chromosome. If that X chromosome has the allele for colour-blindness, he will be colour-blind.

Slide 34 - Slide

Punnet square

1. Determine the parental genotypes. You can use any letter you like but select one that has a clearly different lower case, for example: Aa, Bb, Dd.

2. Split the alleles for each parent and add them into your Punnett square around the edges.

3. Work out the new possible genetic combinations inside the Punnett square.

Slide 35 - Slide

Slide 36 - Video

Slide 37 - Video

Pedigree chart

Slide 38 - Slide

Slide 39 - Video

BS1 - Genotype and Phenotype

Items in this lesson

Slide 1 - Slide

Slide 2 - Slide

Slide 3 - Slide

Slide 4 - Video

Slide 5 - Quiz

Slide 6 - Open question

Slide 7 - Open question

Slide 8 - Open question

Slide 9 - Open question

Slide 10 - Open question

Slide 11 - Quiz

Slide 12 - Slide

Slide 13 - Quiz

Slide 14 - Slide

Slide 15 - Slide

Slide 16 - Drag question

Slide 17 - Video

Slide 18 - Slide

Slide 19 - Quiz

Slide 20 - Slide

Slide 21 - Slide

Slide 22 - Slide

Slide 23 - Video

Slide 24 - Slide

Slide 25 - Slide

Slide 26 - Video

Slide 27 - Slide

Slide 28 - Slide

Slide 29 - Slide

Slide 30 - Slide

Slide 31 - Video

Slide 32 - Slide

Slide 33 - Slide

Slide 34 - Slide

Slide 35 - Slide

Slide 36 - Video

Slide 37 - Video

Slide 38 - Slide

Slide 39 - Video

More lessons like this

Genetica

V4 Inheritance 1

DNA and Genetics - Chapter 3

Monohybrid crosses

5.4 Inheritance

TV4 - Ch.19: The basics of inheritance

DNA and Genetics - Chapter 3

DNA and Genetics - Chapter 3