Haploid (1n) cells are produced at the end of ___.CHOOSE ALL THAT APPLY

A. meiosis 2
B.mitosis
C.meiosis
D.meiosis 1

I picked A, and D
Am I missing one? I think I am

I think A,B, and D but I'm not 100% sure

Gaia/Marie/Sarah/Lilly -- please use the same name for your posts.

To determine if you have missed any answers, let's go through each option and explain the process.

A. Meiosis 2: In meiosis, a diploid (2n) cell undergoes two rounds of cell division, resulting in the production of four haploid (1n) daughter cells. The haploid cells are formed during meiosis 2, where the sister chromatids of each chromosome are separated.

B. Mitosis: Mitosis is a process of cell division that occurs in somatic cells for growth, repair, and maintaining the body's tissues. Mitosis results in the production of two genetically identical daughter cells, which are also diploid (2n) unless a mutation or genetic variation occurs.

C. Meiosis: Meiosis is the process of cell division that occurs in specialized cells (germ cells) to produce gametes (sperm and eggs), which are haploid cells. Meiosis involves two rounds of division, but it is during meiosis 1 that the cells become haploid.

D. Meiosis 1: During meiosis 1, homologous pairs of chromosomes separate from each other, reducing the chromosome number by half. This division results in two daughter cells, which are haploid (1n) but still have duplicated chromosomes. The division responsible for producing haploid cells is meiosis 2.

So, in this situation, you have correctly chosen options A and D. Meiosis 2 (option A) is when haploid cells are produced, and meiosis 1 (option D) is the division leading to the production of haploid cells. Therefore, you have not missed any answers.