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 ?_____________

1. Phenylketonuria is a severe form of mental retardation caused by a homozygous recessive allele. This condition affects about 1 in 10,000 newborn Caucasians. Estimate the frequency of the carriers for this allele in the population assuming HWE.

2. A sample of 1066 Chukchi individuals, the native people of eastern Siberia, has been genotyped for the MN blood group, which is determined by a locus with 2 alleles (M and N). The observed number of individuals has been: MM, 165; MN, 562; and NN, 339. Determine: (a) the allele frequencies; (b) the genotype frequencies; and (c) whether or not the population is in Hardy-Weinberg equilibrium for this locus. Reason your answer.

Please help! Please show clear explanations and methods to get to the answers so I can understand. Thank you so much in advance!

Consider two genes in a large, randomly mating population of turtles with no movement of individuals in and out of the population and no mutation. The two alleles at one gene, L and M, do not affect fitness. The two alleles at the other gene, T and t, do affect fitness -- they affect the thickness of turtle shells, and the degree to which they are protected from predation. TT individuals have thick shells, which repel predators, and survive best. Tt individuals have medium shell thickness and survive 88% as well as do TT individuals. tt individuals have thin shells and are easy for predators to eat; they survive only 14% as well as do TT individuals.

a) In a population of ADULT turtles, the frequency of individuals with the MM genotype is 0.06. (Calculate the frequency of individuals with the LM genotype. )

b) In a population of gametes at the start of a generation, the frequency of the t allele is 0.23. (Calculate the frequency of zygotes with the Tt genotype.)

c) Continuing from part (b), calculate the frequency of the adults that survive from the zygotes that have the Tt genotype.

d) Continuing from part (c), calculate the frequency of the t allele in the gametes that will produce the next generation.