00:01
In order to answer this question, we have to talk about the hardy -weymer equilibrium.
00:03
Remember that according to hardy -weenberg, p plus q is going to be 1, where p is the frequency of alleles in this population that are dominant alleleys in this case, and q is the frequency of alleleys in this population that are recessive -alliles.
00:18
You also have that p -square plus 2 -p -q plus q -square is equal to 1, where p -square is the frequency of individuals in this population that are homo -siguous -dominant, 2pq is the frequency of individuals for this population that are heterocygose.
00:33
Nqs square is the frequency for individuals in this population that are homocygose excessive.
00:37
Okay.
00:38
So this question says in a population of 35 homocygote for genotype homocygote.
00:47
Okay.
00:48
What would be the predicted frequency of heterocygotes if the population is under r .d.
00:52
Weimar equilibrium.
00:54
So they are giving you the value for homozygotoninant.
00:58
It means that this is a value for p square.
01:00
So this is the value for p square.
01:02
So 35 % is the same as 35 or 100...