LAST LESSON CHAPTER 5

TEST ON GENETICS & EVOLUTION

The test has a HAVO- and a VWO-section.
You write all your answers in the 'writing section' in exam.net (on the bottom of this page).
On the top of your test, write down whether you have made the HAVO- or VWO-test.
Please number your answers & click 'enter' before you continue with the next question. So, write down;

I have made the HAVO test.
1. a. your answer
b. your answer. etc.

When you have to use a Punnett-square, please use the 'table' function to make the Punnett-square.
Follow all the steps carefully until you read 'click on 'examen indienen' or 'submit exam' to hand in your work'.
You have 50 minutes to complete the test. When you have extra time, you have 60 minutes to complete the test.
You may now scroll to your section. GOOD LUCK!

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Slide 1: Slide

BiologieMiddelbare schoolhavo, vwoLeerjaar 3

This lesson contains 17 slides, with interactive quizzes and text slides.

Lesson duration is: 30 min

Items in this lesson

TEST ON GENETICS & EVOLUTION

The test has a HAVO- and a VWO-section.
You write all your answers in the 'writing section' in exam.net (on the bottom of this page).
On the top of your test, write down whether you have made the HAVO- or VWO-test.
Please number your answers & click 'enter' before you continue with the next question. So, write down;

I have made the HAVO test.
1. a. your answer
b. your answer. etc.

When you have to use a Punnett-square, please use the 'table' function to make the Punnett-square.
Follow all the steps carefully until you read 'click on 'examen indienen' or 'submit exam' to hand in your work'.
You have 50 minutes to complete the test. When you have extra time, you have 60 minutes to complete the test.
You may now scroll to your section. GOOD LUCK!

Slide 1 - Slide

Any questions about the test?

Slide 2 - Open question

Normal body cell: 46 chromosomes

Organised in 23 homologous pairs.

Each pair has two matching chromosomes.

How can you tell this is a male karyotype?

Slide 3 - Slide

Slide 4 - Slide

To inherit = to receive a characteristic from an ancestor by genetic transmission.

Genotype = complete set of all inherited characteristics.
Homozygous dominant, homozygous recessive & heterozygous

Phenotype = set of characteristics that are seen/expressed.
So; this person does have hemophilia and this person doesn't.

Phenotype = genotype + pattern of gene expression + environmental factors.

Slide 5 - Slide

Oliver says: 'all humans have the same genes, but not the same alleles'. Charley says: 'all humans have the same alleles, but not the same genes'. Who is right?

Oliver

Charley

They both are

They are both wrong

Slide 6 - Quiz

The molecule
shown in the
picture is called ...

DNA

RNA

an amino acid

a ribosome

Slide 7 - Quiz

The structure
shown in the picture is called a...

Slide 8 - Open question

The building blocks for proteins are called ...

DNA

RNA

Amino acids

Ribosomes

Slide 9 - Quiz

Allele = a variation of

a gene.

So the gene for

hemoglobin (Hb) has

two alleles:

HbA

HbS

Alleles =

Slide 10 - Slide

DO YOU REMEMBER?

Slide 11 - Slide

DO YOU REMEMBER?

Slide 12 - Slide

Autosomes

'Normal' genes

AA - Aa - aa

Sex chromosomes

Sex-linked genes

XHXH - XHXh - XhXh

XHY - XhY

Slide 13 - Slide

PEDIGREES

Slide 14 - Slide

TIP TO STUDY:

Make sure you recognize & know the terms (for example by using flashcards)
PRACTISE PRACTISE PRACTISE. Do the exercises (again)
Ask questions when you are struggling to solve one of the questions or do not understand why a certain answer is right.
Watch the Youtube videos that we have watched in class again! Stated Cleary & Amoeba sisters!

Slide 15 - Slide

HOMEWORK 5.5. QUESTIONS 9A & 9B

a. What do you think is meant by the term ‘autosomal dominant’?

b. A woman, whose father has Huntington’s disease, has a baby together with her husband. Ten years later, the woman has a genetic test which reveals she has Huntington’s disease. Her husband does not have the disease. What is the probability that their child will develop Huntington’s disease? Use a Punnet square!

Slide 16 - Slide

HOMEWORK 5.6. QUESTION 2

Haemophilia (X-linked) runs in Femke’s family: her father has haemophilia. However, both Femke and her boyfriend Sytze do not have haemophilia.

a. What is Femke’s genotype? Explain your thinking.

b. What is Sytze’s genotype? Explain your thinking.

c. Femke’s mother does not have haemophilia. What might her genotype be?.

d. Does Sytze’s mother have haemophilia? Explain your thinking

Slide 17 - Slide