Blood Type
Genotype
# of individuals
Frequency of Genotype
M
MM
360
0.36
MN
MN
480
0.48
N
NN
160
0.16
A population sample of 1,000 individuals was made for the MN blood group. The genotypes are easily measured since the alleles are co-dominant individuals were blood typed and the results are shown in the figure. Assume the population is in equilibrium. The frequency of M allele in the population is ? _______________. The frequency of the N allele in the population is ? ________________ Now suppose that the population is mating randomly : The frequency of the MM x MM mating is ?______________ The frequency of the MM x MN mating is ? _____________The frequency of MM x NN mating is ? _______________ The frequency of the MN x MN mating is?___________ The frequency of the MN x NN mating is ? ______________The frequency of the NN x NN mating is ?_____________
Blood Type | Genotype | # of individuals | Frequency of Genotype |
M | MM | 360 | 0.36 |
MN | MN | 480 | 0.48 |
N | NN | 160 | 0.16 |
A population sample of 1,000 individuals was made for the MN blood group. The genotypes are easily measured since the alleles are co-dominant individuals were blood typed and the results are shown in the figure. Assume the population is in equilibrium. The frequency of M allele in the population is ? _______________. The frequency of the N allele in the population is ? ________________ Now suppose that the population is mating randomly : The frequency of the MM x MM mating is ?______________ The frequency of the MM x MN mating is ? _____________The frequency of MM x NN mating is ? _______________ The frequency of the MN x MN mating is?___________ The frequency of the MN x NN mating is ? ______________The frequency of the NN x NN mating is ?_____________