In this program, you are provided with phenotype counts of

F1 and F2 offspring at two research institutes.

The data are generated from an initial parental cross of elegant cranes,

whose genetics are identical to fruit flies, with the exception that they

look like crane birds. The cranes for each institute come from the same original source.

 

For each institute, in the parental generation (P0), one parent displays

the wild-type (WT) phenotype and one the disease phenotype.

The WT parent always has a homozygous genotype, and whether the disease

parent has a homozygous genotype depends on which scenario describes data

in the F1 generation. The possibilities for F1 individuals are:

 

(a) All individuals are disease;

(b) All individuals are wild-type;

(c) There are disease and wild-type individuals.

 

When both disease and WT individuals (item (c)) are available in the F1 generation

then you should use the F1 cross, (disease) X WT.

 

For each institute, there are three possible modes of inheritance that underlie

the generation of the data. All are monogenic. They are:

 

(i)   Autosomal Recessive.

(ii)  Homozygous Lethal Dominant.

(iii) Autosomal Dominant.

 

In this assignment you are provided with computer-generated data

given one of the modes of inheritance (i) - (iii) above.

Question: Apply the Fisher Combined P-value Test to the p-values from each

research institute and decide whether you reject or do not reject

the null hypothesis that the mode of inheritance for the crane diease

at each research institute is Autosomal Dominant.