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The mitotic phase is the end of the cell cycle, concluding in cell division. During the mitotic phase, the DNA and cell structures that were duplicated in interphase, divide into two new daughter cells by cell division. The mitotic phase consists of two sub-phases: mitosis and cytokinesis. During mitosis, the DNA chromosomes and nuclear contents are aligned and separated. During cytokinesis, the cell pinches and separates into two new daughter cells. Below is a diagram of the whole cell cycle: the interphase and the mitotic phase.
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Jetzt kostenlos anmeldenThe mitotic phase is the end of the cell cycle, concluding in cell division. During the mitotic phase, the DNA and cell structures that were duplicated in interphase, divide into two new daughter cells by cell division. The mitotic phase consists of two sub-phases: mitosis and cytokinesis. During mitosis, the DNA chromosomes and nuclear contents are aligned and separated. During cytokinesis, the cell pinches and separates into two new daughter cells. Below is a diagram of the whole cell cycle: the interphase and the mitotic phase.
Fig. 1. In the interphase, the DNA and other cell components are duplicated. During the mitotic phases, the cell reorganises that duplicated material so that each daughter cell receives the appropriate amount of DNA and the rest of the cell components.
There are two phases of mitotic cell division: mitosis and cytokinesis. Mitosis, sometimes called karyokinesis, is the division of the nuclear contents of the cell and has five sub-phases:
Cytokinesis, literally meaning "cell movement", is when the cell splits itself and the cell structures in the cytoplasm are divided into two new cells. Below is a simplified diagram displaying each portion of the mitotic phase, how the DNA chromosomes condense, arrange, divide, and finally how the cell divides into the two new daughter cells.
Prior to mitosis, cells undergo the interphase, in which the cell prepares for mitotic cell division. When cells undergo interphase, they are constantly synthesizing RNA, generating proteins, and growing in size. The interphase is divided into 3 steps: Gap 1 (G1), Synthesis (S), and Gap 2 (G2). These stages occur in sequential order and are extremely important to get the cell ready for division. There is an additional stage in which cells that won't undergo cell division are: Gap 0 (G0). Let's take a look at these four phases in more detail.
Remember that the interphase is separate from the mitotic phase!
Fig. 2. As you can see, the interphase and the mitotic phase of cell division are different in both their function, but also their duration. The interphase takes much longer than the final stages of the cell division process, the mitotic stages.
Gap 0 (G0) is technically not part of the cell division cycle but instead is characterized by a temporary or permanent resting phase in which the cell does not undergo cell division. Usually, cells such as neurons that do not divide are said to be in the G0 phase. The G0 phase can also occur when cells are senescent. When a cell is senescent, it no longer divides. The number of senescent cells in the body increases as we age.
Researchers are still investigating the cause of why senescent cells increase as we age but they suspect that it could be due to decreased efficiency of autophagy.
Cellular senescence: the loss of the ability to replicate by a cell. Senescence as a general term refers to the natural process of aging.
Autophagy: The process of clearing out cellular debris.
During the G1 phase, the cell grows and produces a large amount of proteins which allows the cell to almost double in size. In this phase, the cell produces more organelles and increases its cytoplasmic volume.
During this phase, the cell undergoes DNA replication where the amount of cellular DNA is doubled.
The G2 phase is characterized by increases in cellular growth as the cell prepares to enter the mitotic phase. The mitochondria which are the cell's powerhouse also divide in preparation for cell division.
Now that interphase is completed let's move on to discuss the phases of mitosis. Below is a brief overview of the mitotic phase stages.
Mitosis consists of five stages: prophase, prometaphase, metaphase, anaphase, and telophase. As you review the stages of mitosis, keep in mind what happens to the major cell structures, and how the chromosomes are arranged in the cell. Interestingly, mitosis only occurs in eukaryotic cells. Prokaryotic cells, which lack a nucleus, divide by a method known as binary fission. Let's go over the stages of mitosis in more detail.
During prophase, the first stage of mitosis, the DNA chromosomes condense into sister chromatids and are now visible. The centrosomes start to separate to opposite sides of the cell, producing long strands called spindle microtubules, or mitotic spindles, as they move through the cell. These microtubules are almost like puppet strings that move the main cell components during mitosis. Lastly, the nuclear envelope surrounding the DNA begins to break down, allowing access to the chromosomes and clearing space in the cell.
The next stage of mitosis is prometaphase. The key visible features of this stage of the cell cycle include DNA that is now fully condensed into duplicated X-shaped chromosomes with sister chromatids. The centrosomes have now reached the opposite sides, or poles, of the cell. Spindle microtubules are still forming and begin to attach to the centromeres of the chromosomes at structures called kinetochores. This allows the mitotic spindles to move the chromosomes toward the centre of the cell.
Metaphase is the easiest phase of mitosis to identify when looking at a cell. At this stage of mitosis, all of the DNA chromosomes with fully condensed sister chromatids are aligned in the centre of the cell in a straight line. This line is called the metaphase plate, and this is the key feature to look for in distinguishing this stage of mitosis from others in the cell cycle. The centrosomes have fully separated to the opposite poles of the cell and the spindle microtubules are fully formed. This means that the kinetochore of each sister chromatid is attached to the centrosome on its side of the cell by the mitotic spindles.
Anaphase is the fourth stage of mitosis. When the sister chromatids finally separate, the DNA is divided. Many things are happening all at once:
Finally, we have the telophase. During this final stage of mitosis, two new nuclear envelopes begin to surround each set of DNA chromosomes, and the chromosomes themselves start to loosen into usable chromatin. Nucleoli start to form within the new nuclei of the forming daughter cells. The mitotic spindles break down completely and the microtubules will be reused for the cytoskeleton of the new daughter cells.
This is the end of mitosis. However, you may often see diagrams that combine telophase and cytokinesis. This is because these two stages often happen at the same time, but when cell biologists talk about mitosis and telophase, they only mean the separation of the chromosomes, while cytokinesis is when the cell physically cleaves itself into two new daughter cells.
Cytokinesis is the second stage of the mitotic phase and often happens concurrently with mitosis. This stage is truly when cell division occurs, and two new cells are formed after mitosis has separated the sister chromatids into their daughter chromosomes.
In animal cells, cytokinesis will begin with anaphase as a contractile ring of actin filaments from the cytoskeleton will contract, pulling the cell's plasma membrane inwards. This creates a cleavage furrow. As the cell's plasma membrane is pinched inwards, the opposite sides of the cell close, and the plasma membrane cleaves into two daughter cells.
Cytokinesis in plant cells occurs a little differently. The cell must build a new cell wall to separate the two new cells. Preparing the cell wall begins back in interphase as the Golgi apparatus stores enzymes, structural proteins, and glucose. During mitosis, the Golgi separates into vesicles that store these structural ingredients. As the plant cell enters telophase, these Golgi vesicles are transported via microtubules to the metaphase plate. As the vesicles come together, they fuse and enzymes, glucose, and structural proteins react to build the cell plate. The cell plate continues to build through cytokinesis until it reaches the cell wall and finally splits the cell into two daughter cells.
Cytokinesis is the end of the cell cycle. The DNA has been separated and the new cells have all the cell structures they need to survive. As the cell division is completed, the daughter cells begin their cell cycle. As they cycle through the stages of interphase, they will accumulate resources, duplicate their DNA into matching sister chromatids, prepare for mitosis and cytokinesis, and eventually have their daughter cells as well, continuing the cell division.
The mitotic phase consists of two stages: Mitosis and Cytokinesis. Mitosis is further broken down into five phases: prophase, prometaphase, metaphase, anaphase, and telophase.
Mitosis is how the cell separates its DNA chromosomes during cell division, and cytokinesis is the separation of the cell into new daughter cells.
The main events of mitosis are chromosome condensation during prophase, chromosome arrangement via spindle microtubules during prometaphase and metaphase, sister chromatid separation during anaphase, the formation of new daughter nuclei during telophase.
Cytokinesis in animal cells occurs with the formation of a cleavage furrow, that pinches the cell into two daughter cells. In plant cells, a cell plate is formed and builds into a cell wall separating the daughter cells.
The four phases of mitotic cell division are Prophase, Metaphase, Anaphase, Telophase.
The main events of the mitotic phase are:
Another name for the mitotic phase of cell division is somatic cell division.
The mitotic phase is the phase of cell division where the duplicated DNA of the mother cell is divided into two daughter cells.
What are the two sub-phases of the mitotic phase?
Mitosis and cytokinesis
What are the phases of mitosis in order?
Prophase, Prometaphase, Metaphase, Anaphase, Telophase
What is the main concern of the cell during mitosis?
The separation of the DNA chromosomes.
What is the main concern of Cytokinesis?
Separating the cell into two daughter cells.
A cell plate will form in plant cells during what phase?
Cytokinesis
During cytokinesis in an animal cell, how does the cell split?
The cell forms a microtubule contractile ring to make a cleavage furrow.
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