Primary spermatocytes are diploid (2n) cells with all of the organelles typically found in eukaryotic animal cells. Spermatogenesis begins with a primary spermatocyte with 6 chromosomes, which undergoes meiosis 1 to produce two secondary spermatocytes with 3 chromosomes in each. Each of the secondary spermatocytes undergoes meiosis 2 to produce 2 spermatids, with 3 chromosomes in each. The 4 spermatids mature into spermatozoa.

(a) Describe the process in meiosis that ensures that both maternal and paternal chromosomes are passed on to each spermatozoon.

(b) Explain why the genetic content of individual chromosomes in a spermatozoon most likely differs from the genetic content of individual chromosomes in a primary spermatocyte.

(c) In some instances, meiosis of a primary spermatocyte with six chromosomes results in two spermatozoa that contain four chromosomes and two spermatozoa that contain two chromosomes. Predict the most likely cause.

The process that allows for the transfer of both the paternal and maternal materials to is the crossing over process that takes at meiosis 1 changing them to secondary spermatocytes. While they are still primary spermatocytes, they are still diploid cells having both the maternal and paternal chromosomes. But since the spermatozoon is an haploid cell, it is able to retail some of both parents chromosome by the crossing over event which takes place between homologous paternal and maternal chromosomes allowing them to exchange materials. Thus the chromosomal contents of the primary spermatocyte differs from that of the spermatozoon.

C. This can occur as a result of the one of the homologous chromosome pair refusing to separate at meiosis 1 with one gamete containing 4 chromosomes/8 sister chromatids and the second having 2 chromosomes/4 sister chromatids.

adefioyelaoye adefioyelaoye · Answer 2 · 2022-01-13T14:45:25+01:00

The process in meiosis that ensures that both maternal and paternal chromosomes are passed on to each spermatozoon is referred to as Genetic recombination (crossing over)

The genetic content of individual chromosomes in a spermatozoon most likely differs from the genetic content of individual chromosomes because of crossing over of homologous chromosomes.

The most likely cause of meiosis of a primary spermatocyte with six chromosomes results in two spermatozoa that contain four chromosomes is nondisjunction of homologous chromosomes in meiosis 1.

What is Genetic recombination?

Genetic recombination occurs during meiosis and involves the exchange

and rearrangement of genetic material from parents to form unique

daughter cells with the combination of the traits.

In meiosis I , there is separation of homologous chromosomes so they can

be rearranged. In cases where this doesn't occur, it is referred to as

nondisjunction of homologous chromosomes which brings about unequal

distribution.

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