Ideally, cell division refers to the growth and maintenance of tissue in the multicellular organisms. Cell divisions occur in two types these include mitosis and meiosis. Mitosis, the procedure of making novel body cells and meiosis, create sperm and egg cells. Mitosis is an essential procedure for life (Cairo& Lacefield, 2020 ). During this process, a cell duplicates its contents, including its chromosomes, and separates binary daughter cells that are identical. Numerous genes prudently control the stages of mitosis. Health problems, for instance, cancer, can occur if meiosis is not regulated. Meiosis, on the other hand, guarantees that individuals have similar chromosomes in every generation.
The two stages of procedures reduce the number of the chromosome by half from 46 to 23 to form egg and sperm cells. When these two types of cells unite at conception, contributing 23 chromosomes each, which results in an embryo with 46 chromosomes. Additionally, meiosis permits genetic variation through a procedure of DNA scuffling while the cells are dividing. The cell cycle is controlled by a multifaceted series of signaling paths by which the cell grows, replicates its DNA, and splits ( Golestanian, 2017). This procedure also comprises mechanisms to guarantee mistakes are collected, and if not collected, the cell dies. In cancer, as an outcome of genetic mutations, these controlling procedure malfunctions result in unrestrained cell proliferation of cell
Delegate your assignment to our experts and they will do the rest.
According to Psalm 139:13-16, humans are developed from unformed states and woven together in the mother's womb. Concerning science, this shows that the unformed states are the time before fertilization takes place. After fertilization, cell division commences, whereby the fertilized egg cell continues to divide. The Psalmist describes the formation as a wonderful and fearful process that surpasses human understanding.
References
Cairo, G., & Lacefield, S. (2020). Establishing correct kinetochore-microtubule attachments in mitosis and meiosis. Essays in Biochemistry .
Golestanian, R. (2017). Division for multiplication. Nature Physics , 13 (4), 323-324.
