Our body is made up of numerous types of cells that each has a specific function. We go through our daily life not even thinking about the smallest living organisms in our body that help us perform every task. Without these cells we would not live or maintain any balance inside our bodies. These cells perform functions just as we do such as take in nutrients, excrete waste and even reproduce. In this replication of cells, each cell performs a delicate process two create an exact replica of itself. If done incorrectly, it could lead to any type of genetic error. In this essay I will discuss the events of mitosis and meiosis and compare the two. Mitosis is the process by which the cell replicates itself and is left with two exact cells. …show more content…
There are a number of differences in meiosis; starting with the fact that meiosis only occurs in sex cells, producing a sperm and egg. We do have the same stages in meiosis which are prophase I, metaphase I, anaphase I and telophase I, but then again meiosis performs those phases twice to leave behind four cells with half the genetic material in each cell. In the first prophase I, the DNA is replicated and we again are left with chromatid pairs. Just as in mitosis, the mitotic spindles are preparing to pull the centrioles on opposite sides. There is middle to late prophase I which again is different from mitosis because at this time, the chromatids separate differently. Meaning they will not be identical genetically in the end result. Moving into metaphase I, similarly to mitosis the chromatid pairs line up in the center of the cell. The pulling begins again in anaphase I, where there is an arbitrary split-up of the pairs to either side of the cell. In telophase 1, the cell seperates and we are left with two cells containing only 23 chromosomes. Following we then start this process all over
Meiosis, also called reduction division, is a distinct type of cell division that is essential for sexual reproduction to occur. It is one in which two successive divisions of diploid cell occur thereby producing four genetically different haploid daughter cells, also called gametes, each with half the number of chromosomes and thus, half the total amount of genetic material as compared to the amount before meiosis began. Interphase precedes meiosis and thus, paves the way for meiosis to eventuate as the cell’s DNA replicates in the S phase yielding corresponding, identical chromosomes. Interphase sparks the marvelous process of meiosis that allows variation to transpire within the organisms it occurs, hence, giving rise to millions of organisms with unique aspects unlike any other on Earth. Because meiosis is a form of sexual reproduction itself, it is the means through which gametes are produced, each with a reduced number of chromosomes, so that when two gametes fuse during fertilization, not only do they form a diploid zygote with 46 chromosomes, but also have manifested differing features due to the rearrangement (crossing-over) of chromosomes.
Mitosis describes the reproduction of somatic cells, and Meiosis describes the reproduction of sex cells. We have discussed that Interphase, although not actually a part of Mitosis, is the longest phase and that Prophase involves the dissolution of the nuclear envelope, the condensing of chromatin into chromosomes, and the formation of mitotic spindles that attach to the centromeres of the chromosome pairs. After Prophase comes Metaphase where the chromosomes line up in the center of the cell at the metaphase plate. Next, Anaphase occurs where sister chromatids separate to become two separate chromosomes that then move to opposite poles of the cell. This results in the cell’s shape becoming elongated and the chromosome pairs splitting apart. Lastly, Telophase follows Anaphase and nuclei form around the two sets of chromosomes that then become less condensed. In Telophase, the microtubules break down too, and this phase is overlapped at the end of Mitosis with Cytokinesis that involves the final splitting of the two
Meiosis is specialized cellular division of sex cells. This type of cellular division occurs in single and multi-cellular organisms that undergo sexual reproduction. This process is split into two cycles: Meiosis I and Meiosis II. Prior to the start of meiosis, interphase occurs. Although interphase is not a stage of meiosis it is a vital preparatory step. It allows cellular growth, DNA replication and prepares for cellular division. Each cycle of meiosis is broken down into four stages for a total of eight stages. Meiosis I is composed of prophase I, metaphase I, anaphase I, and telophase I. Meiosis II is a repeat of each phase of meiosis I. Once meiosis is complete, the result will be four haploid daughter cells meaning that each daughter
Compare and Contrast Mitosis and Meiosis. Meiosis and mitosis describes the process by which cells divide. either by asexual or sexual reproduction to produce a new organism. Meiosis is a form of cell division that produces gametes in humans.
As part of the cell cycle, mitosis is the nuclear division of replicated chromosomes by the disconnection of the replicated chromosomes to form two genetically identical daughter nuclei. Escorted by mitosis is commonly the process of cytokinesis. The cytokinesis process entails a dividing cell splitting into two, resulting in the subdivision of the cytoplasm into two cellular suites.
. Other mistakes that can occur during meiosis include translocation, within which a part of one chromosome becomes connected to another, and deletion, in which part of one chromosome is lost entirely. The severity of the results of those disorders depends entirely on the dimensions of the chromosome fragment concerned and, therefore, the genetic data contained in it. Modern technology will find these genetic abnormalities early within the development of the foetus, however at the moment, very little will be done to correct or perhaps treat the diseases ensuing from
Comparing Mitosis and Meiosis with reference to i. Chromosomesii. Biological significance i. Chromosomes ii. Biological significance Modern cell theory states that all cells are derived from other cells. This means cells must have a way of copying themselves. This is cell division; two types of cell division are Meiosis and Mitosis.
Meiosis, or reductional division, is the process during which exchange of genetic material between the homolog chromosomes (crossing-over and recombination) takes place and such a division of the genetical material occurs the four daughercells.
The merger of two germinal cells, one being a sperm cell and the other being an egg cell, is complete within twelve hours, at which time the egg is fertilized and becomes a zygote containing forty six chromosomes required to create a new human life. It is during this remarkable process when conception occurs. Conception confirms life and makes that undeveloped human one of a kind (Rorvik & Shettles, 1983, p. 16). Many researchers, as well as scientists, identify the first moments of life as the instant when a sperm cell unites with an ovum, o...
This brings us to metaphase II. In this stage the chromosomes line up at the metaphase plate in the cell's center waiting to be pulled to the other side. Anaphase II consists of the sister chromatids and chromosomes separate. The spindles will pull the sister chromatids to the opposite pole. Lastly comes telophase II where the nuclei from at both poles and the spindles start to break down and the nuclear membrane start to form. Lastly is cytokinesis that separates these two cells to four haploid cells that contain half the genetic material. The end product is four cell that have each twenty-three chromosomes and chromatids. This only happens in the gametes or sex cells that are eukaryotic because it must a have membrane-bound nucleus. Meiosis is important because this keeps our species going, and makes us not to be extinct. Without this we wouldn't be able reproduce because when a sperm comes to fertilize an egg they combine to have a full forty-six chromosome cell that will go through the process of maturing to be a zygote and then an embryo. Meiosis occurs when a germ or gamete goes through interphase and then the process of meiosis I and
Cells are able to grow and reproduce. Cells reproduce by splitting and passing on their genes (hereditary information) to Daughter cells. The nucleus always divides before the rest of the cell divides. Therefore each daughter cell contains their own nucleus. The nucleus controls the cells activities through the genetic material DNA. The cells in a body are all the same except the gametes they were all made from one cell, the Zygote. This is the cell that was formed when two gametes from your parents fused.
A male makes one thousand new sperm per second, that is two trillion over a lifetime and they all are one of a kind, very unique. A woman has all her eggs from birth. The process starts out as meiosis, this is where 30,000 genes are then there are forty six chromosomes. Twenty three comes from your mother and twenty three come from your father, they only come together in meiosis in pairs, but they are not the same. Chromosomes make an exact copy of themselves then they condense making an X shape, chromosomes get a partner then embrace. The chromosomes cling close together in big chunks, the cell then divides pulling the pair apart with twenty three chromosomes. The cell alone is incomplete, but holds many promises. Every cell holds di...
Meiosis is a special type of cell division that occurs during formation of sperm and egg cells and gives them the correct number of chromosomes. Since a sperm and egg unite during fertilization, each must have only half the number of chromosomes other body cells have. Otherwise, the fertilized cell would have too many.
The process of cell division plays a very important role in the everyday life of human beings as well as all living organisms. If we did not have cell division, all living organisms would cease to reproduce and eventually perish because of it. Within cell division, there are some key roles that are known as nuclear division and cytokinesis. There are two types within nuclear division. Those two types being mitosis and meiosis. Mitosis and meiosis play a very important role in the everyday life as well. Mitosis is the asexual reproduction in which two cells divide in two in order to make duplicate cells. The cells have an equal number of chromosomes which will result in diploid cells. Mitosis is genetically identical and occurs in all living
There are certain things that must happen first before the cell can actually split. There is a six step process required during Mitosis. The first five steps of mitosis are called prophase, prometaphase, metaphase, anaphase, and telophase. This is where all the training and preparation is done for cell division. The sixth step is Cytokinesis, and that is when the cell literally splits into two. Like I said, there are certain things in order to happen before it can enter the M phase. first, it must meet the requirements of the certain size and environment. Since in the S phase the cell duplicated it’s amount of chromosomes it be represented as 2N, where N equals the number of chromosomes in the cell. Cells about to enter M phase, which have passed through S phase and replicated their DNA, have 4N chromosomes. Because of this they are now allowed to enter within the M phase to prophase. Here is where the cell thickens up its chromosomes and begin to sprout microtubules from clone centrosomes. Microtubules tub-like are protein filaments and where the chromosomes migrate but are still within the nuclear envelope in the nucleus. There are centromeres, that are inside the chromosomes and during the later process of this phase, specialized microtubules called kinetochores, assemble on the centromere then later attach to these sites. They act like magnets and go