inheritance patterns Flashcards
What are the classic Mendelian modes of inheritance?
Autosomal Dominant
Autosomal Recessive
X-linked
Y-linked
Autosomal Dominant
- Manifests in heterozygous form, meaning only one mutated allele needed to inherit condition
- Most will have affected parent (not all due to new mutations and incomplete penetrance)
- if an affected individual’s siblings/children are not affected and they do not carry the mutation, they cannot pass it on to their offspring
Features of Autosomal Dominant Inheritance
Penetrance Variable Expressivity New mutation rate Somatic (post-zygotic) mosaicism Germ-line (gonadal) mosaicism Anticipation
Penetrance
% of individuals who carry the mutation (genotype) AND develop symptoms of the disorder (phenotype)
- many dominant disorders show age-dependent penetrance, e.g. the older a person is, the more likely they are to develop the condition if carrying a susceptible genotype
Autosomal Recessive
- manifested only in homozygous/compound heterozygous form (both mutated alleles have to be present to inherit the disorder)
- carriers not affected
- usually one generation affected
- may be consanguinity (e.g. cousin marriages)
- e..g. Cystic fibrosis (manifests in homozygous and compound heterozygous form)
Reduced/Incomplete penetrance
Not all individuals with a mutant genotype show the mutant phenotype
e.g. person with mutation does not develop symptoms of disorder
Features of Autosomal Recessive Inheritance
- manifests in homozygous
form only - carriers are unaffected
- both parents must be carriers or one parent be affected
- trait found in clusters of siblings but not in parents and offspring
Variable Expressivity in autosomal dominant
individuals with the same genotype may have different phenotypes
e.g. variation in the symptoms of disorder in individuals with the same mutation
X-linked Inheritance
A pattern of inheritance in which a recessive gene is carried on the X chromosome, so males are more likely to be affected because they are hemizygous (one X and Y chromosome)
Recessive X-linked:
- women are carriers + unaffected (unless skewed X inactivation)
- no male to male transmission
Dominant X-linked:
- women are affected
- males are more severely affected/lethal
New Mutation Rate in autosomal dominant
de novo mutation rate varies considerably between autosomal dominant conditions
Features of X-linked Recessive inheritance
- X-linked genes never passed from father to son (sons get X from mother)
- All daughters of affected males are obligate carriers (daughters get one X from father)
- Children of carrier females have a 50% chance of inheritance mutant allele
Somatic (Post-zygotic) Mosaicism in autosomal dominant
new mutation arising at early stage in embryogenesis
- present in only some tissues/cells
- some cells will contain mutation, but majority don’t
e. g. Trisomy 21
Are women not affected by X-linked recessive disorders?
The EXPECTED is that women are not affected by X-linked recessive disorder, however this is not always the case due to skewed X-inactivation
Germ line (gonadal) Mosaicism in autosomal dominant
new mutation arises during formation of gametes: oogenesis or spermatogenesis
- mutation present in variable proportion of gametes and can be transmitted to offspring
Skewed X inactivation
occurs when the inactivation of one X chromosome is favoured over the other, leading to an uneven number of cells with each chromosome inactivated
causes manifesting carriers, with symptoms of X-linked recessive conditions e.g. cardiomyopathy in DMD
