1. What would happen If there is no sytoplasmic division at the 5. If a cell is having $$ 2 \mathrm{~g}=40 $$ divide by melosis 3 r A. How many cells are formed at the end of meiosts i? Meiasis if? B. How many chromosomes are there in each daughter cells at the end of meiosis ii? C. How many set of chromosome(s)/is/ are there at the end of meionis $$ / $$ ? Meidsis

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1. If there is no cytoplasmic (or cytokinetic) division, the nucleus (or nuclei) may divide but the cell will not split into separate individual cells. This results in a single cell containing multiple nuclei, called a multinucleated or syncytial cell.

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5. We are given a cell with a diploid genome $$ 2g = 40 $$; that is, it has 40 chromosomes in the diploid state. This means that the haploid number is
$$
n = \frac{40}{2} = 20.
$$

∎ At the end of meiosis I, the following occurs:

**(A) Number of cells formed at the end of meiosis I**

- Normally, in meiosis I the cell divides into 2 daughter cells. Each daughter cell is haploid (i.e. contains one set of chromosomes), although each chromosome is still composed of two sister chromatids.
  
  $$
  \text{Cells after meiosis I} = 2.
  $$

**(B) Number of chromosomes in each daughter cell at the end of meiosis II**

- In meiosis II, each of the 2 cells divides again (even though there is no further replication of the DNA) and the sister chromatids separate. The final product is 4 daughter cells.
- Each cell, however, retains the haploid number of chromosomes. Therefore, each daughter cell in the final stage has 20 individual chromosomes:
  
  $$
  \text{Chromosomes per cell (meiosis II)} = 20.
  $$

**(C) Number of sets of chromosomes in each daughter cell at the end of meiosis**

- Since the resulting cells have one copy (or set) of the chromosomes, each is considered haploid. Thus, there is
  
  $$
  1 \text{ set of chromosomes per cell}.
  $$
1. If there's no cytoplasmic division, the cell will have multiple nuclei without splitting into separate cells. 5. A cell with $$ 2g = 40 $$ chromosomes is diploid, meaning each daughter cell after meiosis I has 20 chromosomes. After meiosis II, each of the four daughter cells has 20 individual chromosomes, making each cell haploid with one set of chromosomes.

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