5.3 Genes and alleles

Theme 5 Heredity and evolution

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5.3: Genes and alleles

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This lesson contains 31 slides, with interactive quizzes, text slides and 1 video.

Lesson duration is: 120 min

Items in this lesson

Theme 5 Heredity and evolution

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5.3: Genes and alleles

Slide 1 - Slide

Put in the correct order

cell - chromosome - DNA - gene

gene - chromosome - DNA - cell

gene - chromosome -cell - DNA

gene - DNA - chromosome - cell

Slide 2 - Quiz

Zet de juiste omschrijving bij het juiste begrip.

chromosome

gene

allele

thread of DNA with hereditary information

part of a chromosome with the information of 1 characteristic

gene variant, the information in a gene

Slide 3 - Drag question

What is the difference between genotype and phenotype?

The phenotype is all of the DNA in your cells. The genotype are all of your visible traits

The genotype are all the different cells. The fenotype are alle the different genes.

The phenotype are all the different cells. The genotype are all the different genes.

The genotype is the total amount of DNA in your cells. The fenotype are all the visible traits.

Slide 4 - Quiz

Learning objectives

5.3.6 You can describe what genes and alleles are.

5.3.7 You can describe what a mutation is.

5.3.8 You can describe what cancer is.

Slide 5 - Slide

Chromosomes

= 1 long DNA molecule rolled up in between proteins

46 chromosomes in every nucleus

Slide 6 - Slide

Karyotype

46 chromosomes
23 pairs of chromosomes
1 pair = 2 similar chromosomes of the same length, shape and with the same information
44 normal chromosomes
2 sex chromosomes

Slide 7 - Slide

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Gene

A piece of DNA that contains the code for a one characteristic is what we call a gene.

gene = een deel van een chromosoom dat de informatie bevat van één of meer erfelijke eigenschappen)

Slide 10 - Slide

Genes

For every hereditary trait:

one gene from your mom and

one gene from your dad.

Slide 11 - Slide

Slide 12 - Slide

DNA

Lots of base pairs together form genes

A base pair is made from 2 pieces, these are called bases.

T and A form a pair

C and G form a pair

Other pairs do not exist in DNA.

DNA is shaped like a ladder.

The ladder is built by using lots of base pairs.

Slide 13 - Slide

A piece of DNA showing the base pairs

Slide 14 - Slide

DNA codes for proteins

The order of the base pairs form a code for the production of proteins.

gene = DNA code for one protein.

For example: eye colour is determined by a gene on chromosome 15.

Slide 15 - Slide

proteins

determine almost everything...

one gene = code for one protein

one or several proteins = one characteristic (hereditary trait)

Slide 16 - Slide

Proteins

proteins control:
colour, shape and functioning of your body

Genes contain the information for producing these proteins.

Muscle cell - gene with info for producing muscle protein

Pancreas - gene with the code for insulin

Eyes - sensory cells in your retina the difference between the colours red and green, colourblind.

Slide 17 - Slide

Gene en allele

gene = piece of DNA that codes for 1 protein = 1 trait

chromosomes are in pairs and thus genes as well

allele = one of the variants of a gene

Slide 18 - Slide

GENE: section of DNA with complete code for a protein

Slide 19 - Slide

Mutation

A change in the DNA

mutant = organism in which a mutation can be seen in the phenotype

Slide 20 - Slide

Causes mutation(mutagenic influences/carcinogens)

Slide 21 - Slide

mutations

Slide 22 - Slide

Slide 23 - Slide

DNA has 4 building blocks

Nucleotides:

ATCG (nitrogenous base)

Phosfategroup

Desoxyribose (sugargroep)

Slide 24 - Slide

Cancer, how and why?

Happens due to mutations
Mutation makes cells divide continously
This creates a tumour:

- Benign: divides slowly, stays at its spot

- Malignant: divides quickly, disrupts tissues

Metastasis > cancer cells are carried by blood/lymph. End up in different body parts and create more/new tumours

Slide 25 - Slide

Slide 26 - Video

This is a karytype of.

sperm cell

egg cell

body cell

you can't tell

Slide 27 - Quiz

How many chromosome pairs do most people have in their cells?

Slide 28 - Quiz

How much hereditary material does a sex cell have compared to a normal body cell?

Same

1/2

1/4

twice the amount

Slide 29 - Quiz

Een allel is een variant van een

basepaar

nucleotide

gen

chromosoom

Slide 30 - Quiz

Het stukje van een DNA molecuul heeft de volgende sequentie: TGCAAA
Wat is sequentie van de tegenoverliggende nucleotiden?

ACGTTT

TTTGCA

TGCAAA

AAACGT

Slide 31 - Quiz

5.3 Genes and alleles

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