C-In humans, the Rh factor genetic information is inherited from our parents, but it is inherited independently of the ABO blood type alleles. In humans, Rh+ individuals have the Rh antigen on their red blood cells, while Rh- individuals do not. There are two different alleles for the Rh factor known as Rh+ and rh. Assume that a dominant gene Rh produces the Rh+ phenotype, and that the recessive rh allele produces the Rh- phenotype. In a population that is in Hardy-Weinberg equilibrium, if 160 out of 200 individuals are Rh+, calculate the frequencies of both alleles. OL

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solve using hardy Weinberg law/ eqaution

C-In humans, the Rh factor genetic information is inherited from our parents, but it is
inherited independently of the ABO blood type alleles. In humans, Rh+ individuals have
the Rh antigen on their red blood cells, while Rh- individuals do not. There are two b
different alleles for the Rh factor known as Rh+ and rh. Assume that a dominant gene Rh
produces the Rh+ phenotype, and that the recessive rh allele produces the Rh-
phenotype. In a population that is in Hardy-Weinberg equilibrium, if 160 out of 200
individuals are Rh+, calculate the frequencies of both alleles.
Close
Transcribed Image Text:C-In humans, the Rh factor genetic information is inherited from our parents, but it is inherited independently of the ABO blood type alleles. In humans, Rh+ individuals have the Rh antigen on their red blood cells, while Rh- individuals do not. There are two b different alleles for the Rh factor known as Rh+ and rh. Assume that a dominant gene Rh produces the Rh+ phenotype, and that the recessive rh allele produces the Rh- phenotype. In a population that is in Hardy-Weinberg equilibrium, if 160 out of 200 individuals are Rh+, calculate the frequencies of both alleles. Close
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