1.) Consider flower color in a hypothetical population of 7,000 flowers, red flowers (4,000), blue flowers (2,000) are dominant over pink flowers. If there are 1,000 pink flowers, find the following: a. Frequency of dominant (red flower) allele b. Frequency of recessive (pink flower) allele c. Frequency of each genotype (homozygous dominant, homozygous recessive, heterozygous) d. Make a Punnett square and use the rule of multiplication.

Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
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Chapter1: The Human Body: An Orientation
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Direction: Solve the following problems with the use of Hardy-Weinberg mathematical
equation and show your step by step solution. Encircle your final answer.
1.) Consider flower color in a hypothetical population of 7,000 flowers, red flowers (4,000), blue
flowers (2,000) are dominant over pink flowers. If there are 1,000 pink flowers, find the
following:
a. Frequency of dominant (red flower) allele
b. Frequency of recessive (pink flower) allele
c. Frequency of each genotype (homozygous dominant, homozygous recessive,
heterozygous)
d. Make a Punnett square and use the rule of multiplication.
2.) Consider flower color in a hypothetical population of 1.500 plants with two alleles, Al and
A2. These alleles show incomplete dominance. Supposed this population include 750 plants with
blue flowers, 500 with yellow flowers and 250 with green flowers Calculate the gene and
genotype frequencies in the given generation and in the next generation
2.1. Frequency of each genotype
(a. homozygous dominant)
(b. homozygous recessive)
(c. heterozygous)
2.2 Make a Punnett square and use the rule of multiplication.
3.) In a population that is in Hardy-Weinberg equilibrium, 45 % of the individuals are
homozygous recessive for a certain trait. In a population of 15,500, how many of the individuals
will be;
a. homozygous dominant individuals
b. heterozygous individuals
Transcribed Image Text:Direction: Solve the following problems with the use of Hardy-Weinberg mathematical equation and show your step by step solution. Encircle your final answer. 1.) Consider flower color in a hypothetical population of 7,000 flowers, red flowers (4,000), blue flowers (2,000) are dominant over pink flowers. If there are 1,000 pink flowers, find the following: a. Frequency of dominant (red flower) allele b. Frequency of recessive (pink flower) allele c. Frequency of each genotype (homozygous dominant, homozygous recessive, heterozygous) d. Make a Punnett square and use the rule of multiplication. 2.) Consider flower color in a hypothetical population of 1.500 plants with two alleles, Al and A2. These alleles show incomplete dominance. Supposed this population include 750 plants with blue flowers, 500 with yellow flowers and 250 with green flowers Calculate the gene and genotype frequencies in the given generation and in the next generation 2.1. Frequency of each genotype (a. homozygous dominant) (b. homozygous recessive) (c. heterozygous) 2.2 Make a Punnett square and use the rule of multiplication. 3.) In a population that is in Hardy-Weinberg equilibrium, 45 % of the individuals are homozygous recessive for a certain trait. In a population of 15,500, how many of the individuals will be; a. homozygous dominant individuals b. heterozygous individuals
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