ANSWER KEY A geneticist studying the inheritance of color in flowers crossed a pure white flower (aabb) with a dark red flower (AABB) and got all pink offspring. Interbreeding the pink flowers produced the following data: 43 dark red 162 red 245 pink 166 light pink 41 white a) Why is this particular example a case of polygenic inheritance

The term quantitative heritability refers to the transmission of a phenotypic trait in which expression depends on the additive effect of a series of genes.

Polygenic heritability occurs when a trait results from the interaction of more than one gene. And these genes can also have more than two alleles. The action of many genes and alleles can cause many different combinations that are the reason for genotypic graduation.

Quantitative traits are those that can be measure, such as longitude, weight, eggs laid per female, among others. These characters do not group individuals by any precise and clear categories. Instead, they group individuals in many different categories that depend on how the genes were intercrossed and distributed during meiosis. The result depends on the magnitude in which each allele contributes to the final phenotype and genotype. When they interact, they create a gradation in phenotypes, according to the level of contribution.

In the exposed example, we have two diallelic genes involved in the color of the flowers. Each dominant allele equally contributes to defining the pigment and the spectrum of phenotypes of each flower color.

white flower → aabb → all recessive alleles
light pink → Aabb or aaBb → One dominant allele
pink flower → AAbb or aaBB or AaBb → Two dominant alleles
red flower → AaBB or AABb → Three dominant alleles
dark red → AABB → All dominant alleles

1st Cross:

Parentals) AABB x aabb

F1) 100% AaBb Pink flowers

2nd Cross:

Parentals) AaBb x AaBb

Gametes) AB, Ab, aB, ab

AB, Ab, aB, ab

Punnett square) AB Ab aB ab

AB AABB AABb AaBB AaBb

Ab AABb AAbb AaBb AAbb

aB AaBB AaBb aaBB aaBb

ab AaBb Aabb aaBb aabb

F2) Genotype

1/16 AABB → dark red >> 4 dominant alleles
2/16 AABb → red >> 3 dominant alleles
1/16 AAbb → pink >> 2 dominant alleles
2/16 AaBB → red >> 3 dominant alleles
4/16 AaBb → pink >> 2 dominant alleles
2/16 Aabb → light pink >> 1 dominant allele
1/16 aaBB → pink >> 2 dominant alleles
2/16 aaBb → light pink >> 1 dominan allele
1/16 aabb → white >> 0 dominant allele

Phenotype

1/16 dark red
4/16 red
6/16 pink
4/16 light pink
1/16 white

Total number of individuals in the F2 = 657

657 individuals ------------- 16

43 dark ------------------------X = 1

162 red ------------------------X = 4

245 pink --------------------- X = 6

166 light pink -------------- X = 4

41 white ---------------------- X = 1

luisvaschetto luisvaschetto · Answer 2 · 2022-03-01T12:10:05+01:00

This is a case of polygenic inheritance because this trait is modulated by two different genes.

Polygenic inheritance occurs when a phenotypic trait is controlled by two or more genes.

In this case, the color of the flowers is controlled by two different genes, thereby being governed by polygenic inheritance.

Polygenic inheritance is very common in nature and this type of inheritance pattern shape quantitative traits (e.g., height, weight, etc)

In conclusion, this is a case of polygenic inheritance because this trait is modulated by two different genes.

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