Models of single-gene inheritance: family tree diagrams
I can construct and interpret family tree diagrams showing information about inheritance of a feature.
Models of single-gene inheritance: family tree diagrams
I can construct and interpret family tree diagrams showing information about inheritance of a feature.
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Lesson details
Key learning points
- Offspring inherit two alleles, one from each parent, the combination of these alleles is the genotype.
- The phenotypes of members of a family can be shown in a diagram such as a family tree (pedigree).
- A family tree diagram is a model of inheritance, showing whether a characteristic was passed from parents to offspring.
- A family tree can be used to work out an individual’s genotype if their phenotype and relatives’ genotypes are known.
- A family tree can be used to determine the history and probability of genetic disorders: cystic fibrosis and polydactyly
Keywords
Family tree - A family tree diagram is a model of inheritance, showing whether a characteristic was passed from parents to offspring.
Genotype - The genotype is the combination of alleles that an individual has for each gene.
Phenotype - The phenotype is the physical characteristics of an organism.
Carrier - A carrier of a recessive genetic disorder does not express the disorder in their phenotype, but has one recessive allele in their genotype that can be passed to offspring.
Inheritance - Inheritance is the passing of genetic information from parents to offspring by reproduction.
Common misconception
The dominant allele is stronger than the recessive allele preventing its expression or that the recessive allele is an absence of the dominant allele, also that all genetic disorders are recessive.
Linking the allele to change in protein structure, showing that proteins are produced in the case of dominant and recessive alleles. Examples of dominant and recessive disorders provided.
To help you plan your year 10 biology lesson on: Models of single-gene inheritance: family tree diagrams, download all teaching resources for free and adapt to suit your pupils' needs...
To help you plan your year 10 biology lesson on: Models of single-gene inheritance: family tree diagrams, download all teaching resources for free and adapt to suit your pupils' needs.
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Licence
Prior knowledge starter quiz
6 Questions
Q1.Starting with the smallest, put these in order of increasing size.
Q2.Which is the correct end for the sentence? All humans have the same ...
Q3.A single gene with two alleles controls the wetness of earwax. The E allele is dominant and causes wet ear wax. The e allele is recessive. What is the genotype of a person with dry earwax?
Q4.The shape of peas is controlled by a single gene with two alleles: R for round and r for wrinkled. R is dominant. Which of the numbered boxes in the Punnett square contains a mistake?

Q5.PKU is a disorder in humans caused by a recessive allele, p. Two carriers of PKU are shown this Punnett square. What can they learn from the Punnett square?

Q6.A dominant allele R codes for red flower colour, and the allele r codes for white flowers. A RR plant is crossed with a rr plant. What colour flowers will their offspring have?
Assessment exit quiz
6 Questions
Q1.For a recessive genetic disorder, what does it mean when an individual is referred to as a “carrier”? It is someone who ...
Q2.Match the genotype to its correct description.
homozygous dominant
heterozygous
homozygous recessive
Q3.Here is a family tree. How many generations are shown?

Q4.Here is a family tree. Which individuals are brother and sister?

Q5.Here is a family tree. The shaded individuals have a genetic disorder caused by a recessive allele. Which two parents must be carriers?
