You are conducting an experiment with flies and establish a large population of 100 flies (pop #1). You then use 5 flies from pop #1 to establish a new population (pop #2) and let the size of pop #1 and pop #2 grow to 100 flies. You then use 5 flies from pop #2 to establish pop #3 and let each population grow to 1000 flies. What do expect the relative heterozygosity of each population to be? O pop #1> (pop #2 = pop #3) O pop #1 pop #2 - pop #3 pop #1> pop # 2> pop #3 pop #3> pop # 2> pop #1
You are conducting an experiment with flies and establish a large population of 100 flies (pop #1). You then use 5 flies from pop #1 to establish a new population (pop #2) and let the size of pop #1 and pop #2 grow to 100 flies. You then use 5 flies from pop #2 to establish pop #3 and let each population grow to 1000 flies. What do expect the relative heterozygosity of each population to be? O pop #1> (pop #2 = pop #3) O pop #1 pop #2 - pop #3 pop #1> pop # 2> pop #3 pop #3> pop # 2> pop #1
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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Transcribed Image Text:You are conducting an experiment with flies and establish a large population of 100 flies (pop
#1). You then use 5 flies from pop #1 to establish a new population (pop #2) and let the size of
pop #1 and pop #2 grow to 100 flies. You then use 5 flies from pop #2 to establish pop #3 and
let each population grow to 1000 flies. What do expect the relative heterozygosity of each
population to be?
O pop #1> (pop #2 = pop #3)
O pop #1 = pop #2 = pop #3
pop #1> pop # 2> pop #3
pop # 3 > pop # 2> pop #1
Transcribed Image Text:An allele is introduced to a population via mutation and is initially present at a frequency of
0.001. Assuming nothing else, what is the probability that it will be lost due to random genetic
drift?
O Need more information to answer this question
0.999
0.5
O 0.001
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