Give the genotypic frequencies expected under the Hardy–Weinberg law for (a) an autosomal locus with three alleles and (b) an X-linked locus with two alleles.
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Give the genotypic frequencies expected under the Hardy–Weinberg law
for (a) an autosomal locus with three alleles and (b) an X-linked locus
with two alleles.
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- What mathematical formula would you suggest for determining the probability of a completely homozygous recessive progeny individual resulting from selfing an individual heterezygous for n pairs of genes, all of which exhibit complete dominance?The following are F2 results of two Mendel mono hybrid crosses. For each cross state a null hypothesis to be tested using x2 analysis. a) full pods 882 constricted pods 299 b) violet flowers 705 white flowers 224. Calculate the X2value and determine the p value for both. Interpret the p values. Can the deviation in each case be attributed to chance or not? Which of the two crosses shows a greater amount of deviation?Your internship with Dr. Nefario at Gru Industries is going well so far, but a recent mission to obtain a shrink ray requires a special kind of Minion. You identify that the ideal Minion phenotypes for this mission are two eyes, pale yellow, and short. From your previous work, you’ve found that:Two-eyed (D) is completely dominant over one-eyed (d)Yellow (Y) is incompletely dominant with white (y)Tall (T) is completely dominant over short (t) a. The only reproductive individuals you have at the moment (it was surprise mission!) are a true breeding two-eyed, yellow, short Minion and a one heterozygous for each trait. What genotypic ratios would you expect for this crossassuming that each locus is on a different chromosome? What total proportion would you expect to be the desired phenotype for the mission? b. The mission has since been delayed due to lack of financial support, so you’ve got some time. All the individuals from the F1 cross above are now reproductive. Which genotypes would…
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