A healthy woman with a color blind father married an unaffected man, and their first child,...
A healthy woman with a color blind father married an unaffected man, and their first child, a boy, had hemophilia. Both color blindness and hemophilia are due to x-linked recessive mutations and the relevant genes are separated by 20 cM. This couple plans to have a second child. What is the probability of having: a) a boy with hemophilia (regardless of his vision) b) a color blind girl without hemophilia? c) a child with both hemophilia and color blindness? d) a child with neither hemophilia nor color blindness?
Homework Answers
Consider the female who is a carrier has a set of Gene xX
And a male who is also a carrier for hemophilia having a set of Gene as xY.
Using mendels law of inheritence we find out the offsprings produced will be of,
1. xx - rescessive Gene from mother carrying color blind Gene and recessive Gene from father having hemophilia
2. Xx - normal dominant Gene and recessive Gene for color blindness
3. xY - recessive Gene for color blindness and normal gene
4. XY - normal gene
So from this we we can infere that,
a) There is no chance of having a boy with hemophilia
b)25% chance of having a colour blind girl with color blindess and 25% chance of having a girl child as carrier
c)25% of chances of having both colour blindness and hemophilia
d) XY gene has shown that the child born with neither hemophilia and color blindness is 25%
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