Recessive trait
(AA and Aa
normal, aa
bloats) |
Dominant trait
(AA and Aa
affected, aa normal.) |
| Expectations |
 | two affected individuals should produce only
affected progeny |
|
| two affected individuals may produce unaffected
progeny if both are heterozygous (Aa) |
|
| one affected and one normal should produce 1/2
affected and 1/2 normal progeny if the normal is a
carrier (Aa) |
|
| one affected and one normal should produce 1/2
affected and 1/2 normal progeny if the affected is
heterozygous |
|
| two normal may produce 1/4 affected progeny if
both are carriers |
|
| two normal individuals should not produce any
affected progeny |
|
| Data |
| C (unaffected) is the daughter of two affected
individuals. To account for this, we would have to say that that
the trait is not fully penetrant (an individual genetically
predisposed to bloat does not necessarily do so). |
|
| C (unaffected) is the daughter of two affected
individuals. As we lack data on sibs, we cannot establish
whether this occurs about 25% of the time. |
|
| The litter of seven has 3 affected - acceptably
close to the expected 1/2 for either a dominant or recessive
trait. |
|
| We have two examples (A and D) of affected
individuals produced by normal parents, but lack data on sibs
and cannot establish whether the proportion is approx. 1/4. |
|
| Affected individuals A and D are from two normal
parents. To account for this, we would have to say that that the
trait is not fully penetrant, and that at least one of the
parents is heterozygous. |
|
| We also have to suppose that every non-bloating
individual that has an affected son or daughter is a carrier.
There are nine of them, only two of which are known to have a
parent that bloated. |
|
| In this case no restrictions are placed on the
"unrelated" non-bloating parents of dogs that bloated. |
|
