What are the differences between Telophase of mitosis and meiosis I and II.
Answers
Mitosis vs Meiosis
Meiosis and Mitosis describe cell division in eukaryotic cells when the chromosome separates.
In mitosis chromosomes separates and form into two identical sets of daughter nuclei, and it is followed by cytokinesis (division of cytoplasm). Basically, in mitosis the mother cell divides into two daughter cells which are genetically identical to each other and to the parent cell.
Phases of mitosis include:
1. Interface -where cell prepares for cell division and it also includes three other phases such as G1 (growth), S (synthesis), and G2 (second gap)
2. Prophase ‘“ formation of centrosomes, condensation of chromatin
3. Prometaphase- degradation of the nuclear membrane, attachment of microtubules to kinetochores
4. Metaphase- alignment of chromosomes at the metaphase plate
5. Early anaphase- shortening of kinetochore microtubules
6. Telophase- de-condensation of chromosomes and surrounded by nuclear membranes, formation of cleavage furrow.
7. Cytokinesis- division of cytoplasm
Meiosis is a reductional cell division where the number of chromosomes is divided into half. Gametes formations occur in animal cell and meiosis is necessary for sexual reproduction which occurs in eukaryotes. Meiosis influence stable sexual reproduction by halving of ploidy or chromosome count. Without meiosis the fertilization would result in zygote with twice the number of the parent.
Phases of meiosis include:
1. Meiosis I ‘“ separation of homologous chromosomes and production of two haploid cells (23 chromosomes, N in humans)
2. Prophase I ‘“ pairing of homologous chromosome pair and recombination (crossing over) occurs
3. Metaphase I – Homologous pairs move along the metaphase plate, kinetochore microtubules from both centrioles attach to the homologous chromosomes align along an equatorial plane.
4. Anaphase I – shortening of microtubules, pulling of chromosomes toward opposing poles, forming two haploid sets
5. Telophase I – arrival of chromosomes to the poles with each daughter cell containing half the number of chromosomes
6. Meiosis II – second part of the meiotic process with the production of four haploid cells from the two haploid cells
Summary:
Mitosis ‘“ separation of chromosomes into two identical sets of daughter cells
Meiosis- reductional cell division and the number of chromosomes is divided into half; it is essential for sexual reproduction, and therefore it occurs in eukaryotes
Mitosis I and Meiosis II
Explanation:
- Meiosis contains two cell divisions. The difference between telophase I in meiosis and telophase during mitosis is the that found near each post of the axle is a haploid arrangement of chromosomes
- Limited uncoiling occurs before the chromosomes move onto the second cell division stage in meiosis (telophase II)
- DNA is never replicated during this form of interphase
- Telophase II is the point at which every little girl cell from meiosis I is beginning to part, signaling the end of meiosis II