5.6 the difference of being a boy or girl

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5.6 the difference of being a boy or girl
TB page 141

Slide 3 - Diapositive

What is an allele?

Slide 4 - Question ouverte

What is a dominant allele?

Slide 5 - Question ouverte

What is a recessive allele?

Slide 6 - Question ouverte

male and female
male:    2x 22 autosomes + X + Y = 46 chromosomes

female: 2x 22 autosomes + X + X = 46 chromosomes

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egg cell and sperm cell
egg cell contains 22 autosomes + X chromsome

sperm cell contains 22 autosomes + X or 22 autosomes + Y

Slide 10 - Diapositive

today''s program 
learning objectives: you're able to answer the following questions


  • why do certain inherited diseases occur more often in boys than in girls?

  • given a certain combination of parents, how can you determine the genotype and phenotype of sex-linked inherited characteristics in the offspring? 

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Slide 12 - Vidéo

Sex-linked inheritance
  • Female: XX,  male: XY
  • Traits are only on the X chromosome
  • On the Y are only the genes for male-ness
  • Genotypes are written down like this (when they are sex linked!) :
    Female: XHXH, XHXh or XhXh 
     Male: XHY or Xh

Slide 13 - Diapositive

calculating chances
1. Write down both genotypes XX and XY
    with the trait XHXH and XhY for example
2. Use a punnet square!
3. Calculate the chance of every possible phenotype and       
    answer the question

Slide 14 - Diapositive

LET'S PRACTISE TOGETHER

A mother who is a carrier for colour-blindness gets a child with a father who has normal vision. 

What are the probabilities of their children being colour-blind? Use a Punnet square! 
colour-blindness is sex-linked!

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question 41

Slide 19 - Diapositive

start homework!
study 5.6
do excercise 41, 42, 43, 44, 45
timer
10:00

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Slide 21 - Diapositive

Review: Sex-linked inheritance
  • Female: XX,  male: XY
  • Traits are only on the X chromosome
  • On the Y are only the genes for male-ness
  • Genotypes are written down like this (when they are sex linked!) :
    Female: XHXH, XHXh or XhXh 
     Male: XHY or Xh

Slide 22 - Diapositive

Let's compare..!
1. In a population of frogs, a certain disease (h) is recessive. Two heterozygous frogs are crossed. What are the phenotypic and genotypic ratios of their offspring?

2. In the same population of frogs, the same disease is now recessive and located on the X chromosome. A heterozygous carrier female frog is crossed with a male frog without the disease. What are the phenotypic and genotypic ratios of their offspring?

Slide 23 - Diapositive

Compare and contrast
Autosomal
Sex-linked
Expression in males/females
Males and females are equally likely to express the trait
Males are more likely to express recessive traits due to having an empty Y chromosome

Carrier status
Both males and females can be carriers
Only females can be carriers (heterozygous for the trait)

Slide 24 - Diapositive

Sex-Linked Cross (Dominant Trait):
Question: 
In fruit flies, eye colour is sex-linked. Red eyes are dominant over white eyes. If a heterozygous red-eyed female mates with a white-eyed male, what are the possible genotypes and phenotypes of their offspring? Also give the %'s.

Slide 25 - Diapositive

Sex-Linked Cross (Recessive Trait):
Question: 
In humans, color blindness is a recessive trait
carried on the X chromosome. If a carrier
female mates with a normal-vision male, what 
are the possible genotypes and phenotypes 
of their offspring? Also give the %'s.

Slide 26 - Diapositive

Sex-Linked Cross
Question: 
In rabbits, black fur (B) is dominant over white fur (b), and the gene for fur color is located on the X chromosome. If a heterozygous black-furred female rabbit mates with a white-furred male rabbit, what are the possible genotypes and phenotypes of their offspring?

Slide 27 - Diapositive

Homework



Workbook check:
  • WB questions 43, 44, 45
  • No new homework








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