5.4 Inheritance

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Slide 1: Diapositive
BiologieMiddelbare schoolvwoLeerjaar 2

Cette leçon contient 19 diapositives, avec quiz interactifs, diapositives de texte et 2 vidéos.

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Éléments de cette leçon

  • Waarom doen mensen eigenlijk aan archeologie?
  • Wat is een levend fossiel? 
  • Wanneer is een dier uitgestorven? 

Slide 1 - Diapositive

5.4 inheritance

Slide 2 - Diapositive

Sex-linked inheritance

Slide 3 - Diapositive

Een bak met 50 rode ballen en 25 blauwe ballen: 

- als je telkens twee ballen pakt en deze alleen eruit haalt als ze dezelfde kleur hebben
(anders leg je ze terug en schud je de bak),
welke kleur is dan als eerste op? 

Slide 4 - Diapositive

allele: variety of one gene
Plural = alleles

on each chromosome you
have an allele of a gene.
For example eye colour:
blue allele or brown allele

Slide 5 - Diapositive

Slide 6 - Diapositive

Is it a gene or an allele?
GENE
ALLELE
skin colour
curly hair
flower colour
blue eyes
blood type
type A blood
colour-blindness
hair type
short wings in a fruit fly

Slide 7 - Question de remorquage

Evie says: 'all humans have the same genes, but not the same alleles'.
Mila says: 'all humans have the same alleles, but not the same genes'.
Who is right?
A
Evie
B
Mila
C
They both are
D
They are both wrong

Slide 8 - Quiz

Slide 9 - Vidéo

Repetition: 
Two equal alleles: homozygous (AA or aa)
Two different alleles: heterozygous (Aa)


AA  => homozygous dominant  => brown eyes (phenotype)
Aa => heterozygous => brown eyes (phenotype)
aa => homozygous recessive => blue eyes (phenotype)
Genotype)

Slide 10 - Diapositive

Slide 11 - Vidéo

dominant and recessive
genotype is written down in letters.
for example
brown eye color A
blue eye color  a
genotype Aa    fenotype = brown eyes

Slide 12 - Diapositive

Slide 13 - Diapositive

dominant, recessive alleles
dominant A   is always visible in the genotype
recessive a  is only visible when there is no dominant allel
Dominant wins over recessive

Slide 14 - Diapositive

mendelian inheritence
we can calculate probable percentages of offspring with different genotypes/fenotypes
we use a Punnet square

Slide 15 - Diapositive

Slide 16 - Diapositive

Some fruit flies have curly wings instead of normal wings (see the pictures below). Answer the questions using the letter R for normal wings and r for curly wings:

normal wings                 curly wings
a. Which is the dominant allele? Give the letter and the characteristic.
b. Which is the recessive allele? Give the letter and the characteristic.
c. What is the genotype of a fruit fly that is homozygous for curly wings? 
d. Which two genotypes will result in the ‘normal wings’ phenotype?
e. Can a fruit fly with curly wings have a heterozygous genotype? Explain your thinking.





Slide 17 - Diapositive

CALCULATE THE CHANCE. 
Check out the steps on page 136.  

Let's practice! A guinea pig is homozygous for blue fur. This guinea pig mates with a guinea pig with yellow fur. Use a punnet square to determine the probability of one of their offspring having blue fur.

Slide 18 - Diapositive

Practice
5.4
Exercises 23, 24, 25, 27, 28, 29

Slide 19 - Diapositive