During meiosis I, pairs of homologous chromosomes align randomly along the metaphase plate before being separated. This process helps generate genetic variation in the offspring of sexual reproduction.
Which of the following best explains how the random alignment of homologous chromosomes during meiosis helps generate varied offspring?
Choose 1 answer:

(Choice A)
A
Random alignment results in the formation of gametes that contain different numbers of chromosomes.

(Choice B)
B
Random alignment results in the formation of some diploid and some haploid gametes.

(Choice C)
C
Random alignment increases the number of possible chromosome combinations in the gametes.

(Choice D)
D
Random alignment increases the likelihood of crossing over between non-sister chromatids.

The statement that best explains how the random alignment of homologous chromosomes during meiosis helps generate varied offspring is "random alignment increases the number of possible chromosome combinations in the gametes"

MEIOSIS:

Meiosis is the process by which a single cell produces four daughter cells that are genetically different from one another.

In the meiotic process, pairs of homologous chromosomes align randomly along the metaphase plate in a stage called METAPHASE.

The random alignment is a unique process of meiosis because it helps generate genetic variation in the offspring of sexual reproduction.

This random alignment increases the number of possible chromosome combinations in the gametes.

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