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Cells are extremely important components of our bodies. They work together to facilitate complex physiological processes that help us maintain homeostasis and survive! Our cells also adapt to environmental changes so that we can survive fluctuating weather temperatures and physical stressors such as giving birth.
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Jetzt kostenlos anmeldenCells are extremely important components of our bodies. They work together to facilitate complex physiological processes that help us maintain homeostasis and survive! Our cells also adapt to environmental changes so that we can survive fluctuating weather temperatures and physical stressors such as giving birth.
Since cells do so much work in our bodies, they need to be replaced on a daily basis via cell division. Cell division occurs in all organisms and is needed for cells to grow in population. So, if you are interested in learning about the cell cycle and cell growth, keep reading!
Let's start by looking at the meaning of cell growth.
Cell growth refers to an increase in the total mass of a cell in terms of cytoplasmic increase.
Cell growth and DNA replication are two important processes that take place during cell division, and the sequence of events from the duplication of a cell genome to its division into two daughter cells is termed the cell cycle.
Cell growth is a continuous process, and during this time, cells become larger by creating more organelles and proteins and replicating DNA.
Cell growth occurs when the rate of cellular biosynthesis is higher than the rate of the degradation of old organelles and biomolecules.
Cell division can also occur without cell growth, like during embryonic development. Similarly, cells such as neurons can grow without cell division during nervous system development and neuronal cell migration.
Neuronal cell migration is the process by which neurons travel to their designated places within the nervous system.
An example of how cells can grow is seen during tissue injury. When you fall and scrape your knee, cells need to divide and proliferate to close up the wound, so you do not get infected.
This is done through accelerated cell growth, cell migration, and cell division. The cells remaining on your skin after a wound has been inflected secrete specialized signals that encourage the nearby cells to grow and proliferate. This is why you see scabs on your knee after a few days.
The scab is the production of new cells proliferating to close up the wound.
There are many types of cell growth associated with different organisms. Eukaryotic cells divide via mitosis and meiosis, which we will discuss in detail below.
Other organisms, such as bacterial cells, divide via binary fission. During binary fission, DNA within the bacterial cell replicates and travels to opposite ends of the cell. Once this happens, cytokinesis takes place, and two identical daughter cells are formed.
As mentioned previously, cell growth occurs often occurs during the cell cycle. The cell cycle has many stages that are very important:
Interphase
Gap Phase
S phase
M phase
The first stage of the cell cycle is 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. Interphase is subdivided into four stages:
Gap 0 (G0)
Gap 1 (G1)
Synthesis (S)
Gap 2 (G2)
These stages occur in sequential order and are extremely important to get the cell ready for division. Let's take a look at these phases in more detail.
The gap 0 phase (G0) is technically not a part of the cell cycle but instead is characterized as 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 Gap 0 phase. The gap 0 phase can also occur when cells are senescent.
When a cell is senescent, it means that 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.
Autophagy: The process of clearing out cellular debris.
During the gap 1 phase, the cell grows and produces numerous proteins which allows the cell to almost double in size. In this phase, the cells produce more organelles and increase their cytoplasmic volume, preparing for division.
The cell cycle contains checkpoints, which are points where the cycle pauses and checks for cells with DNA damage. If the checkpoint finds any cells with damaged DNA and determines that they are unfit for cell division at that moment, it sends them to the G0 phase or orders that they self-destruct via apoptosis!
There are four checkpoints in a cell cycle: the G1 checkpoint, the S checkpoint, the G2 checkpoint, and the M checkpoint. You can learn more about this by reading "Cell Cycle Checkpoints"!
During the synthesis (S) phase, the cell undergoes DNA replication (DNA synthesis), where the amount of cellular DNA is doubled.
During DNA replication, each chromatid from the G1 phase is copied, doubling the amount of DNA. The two resulting chromatids are identical, and they join together in the center, in a region called the telomere.
Keep in mind that, even though the amount of genetic information has doubled due to DNA replication, the number of chromosomes that contain that genetic information is still the same. To learn more about the S phase, check out "DNA replication"!
The gap 2 phase is characterized by increased 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 the interphase is completed, let's move on to discuss the mitosis (M) phase, which is the second part of the cell cycle.
Following interphase and cell growth, mitosis takes place. During mitosis, the cell successfully divides into two identical daughter cells.
Mitosis consists of five stages:
Stage 1 - Prophase
During prophase, the DNA chromosomes condense into sister chromatids which makes them visible through a microscope. 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. During prophase, the nuclear envelope surrounding the DNA begins to break down, allowing access to the chromosomes.
Sister chromatids: Condensed replicated DNA copies joined at the centromere.
Stage 2 - Prometaphase
During this phase, the nuclear envelope fragments, and the nucleolus disappears. The centrosomes have reached the opposite sides of the cell, and the mitotic spindles begin to connect the centromeres of the chromatids at structures called kinetochores. This process allows the mitotic spindles to move the chromatids toward the center of the cell in preparation for metaphase.
Stage 3 - Metaphase
Metaphase is characterized by the sister chromatids lining up in the center of the cell in a straight line. This line is known as the metaphase plate. During metaphase, the centrosomes have fully separated to the opposite sides of the cell, and the mitotic spindles are fully formed.
Stage 4 - Anaphase
This stage is characterized by the separation of sister chromatids, which divides the DNA. During anaphase, the cohesion proteins holding together the sister chromatids break down while the mitotic spindles pull the sister chromatids apart to opposite ends of the cell.
Stage 5 - Telophase
During this stage, two nuclear envelopes begin to surround each set of chromosomes, and nucleoli begin to form within the new nuclei surrounding the chromosomes. At this point, the mitotic spindles break down and will be reused for the cytoskeleton of both daughter cells.
In this stage, the cytoplasm divides by forming a cleavage furrow and pinching off into two separate daughter cells with identical genetic codes.
During reproduction, gametes from a mother and from a father come together to form a zygote. A special form of cell division known as meiosis occurs in the reproductive organs of males and females in order to produce gametes.
Meiosis is the division of a cell into four haploid daughter cells.
During meiosis, two rounds of cell division take place to produce four daughter cells with half the amount of genetic information as the parent cell.
The stage of meiosis is the same as those of mitosis, except they occur twice! After fertilization has taken place and the zygote is formed, the zygote grows and divides.
At this point, cell growth is very important as during the early embryonic stage, cell growth and division take place rapidly until the fetus is formed.
During fetal development, cell growth also occurs in the nervous system and other bodily systems. Cell growth during this period is crucial for cell migration to their rightful spots within tissues. As the cells grow, their cytoskeletons change, which allows them to physically move throughout tissues until they get to their rightful places.
When cells do not migrate to their correct place, this leads to many disorders, such as intellectual disability.
During biological experiments, cells are often cultured and used for experiments. Drug testing and a cell growth curve provide information about the cells' behavior during the culture process and during the experiments.
Growth curves are used to assess whether the cells' biological response is due to a tested drug or any experimental manipulation of the cell by visualizing the growth characteristics, such as doubling the cell population and maximum growth.
These characteristics are depicted in three phases:
During the lag phase, the cells recover from cultivation and start to attach to the surface of the container and divide. This then transitions into the log phase, where the cells grow exponentially and double.
At the plateau phase, the culture growth begins to slow and eventually stops. The plateau phase is followed by the death phase, where the cells begin to die and detach from the container.
Cell growth refers to an increase in the total mass of a cell.
Cell growth takes place during the first few stages of the cell cycle. During this time, cells become larger by creating more organelles and proteins and replicating DNA.
Cell growth is important for successful cell division.
The increased rate of biogenesis.
The log phase.
No. Neurons do not grow and reproduce.
A cell growth curve provides information about the cells' behavior during the culture process and during the experiment.
______ refers to an increase in the total mass of a cell.
Cell Growth
In cell division, cell growth takes place during the first few stages of the cell cycle.
True
Cells become larger by creating more organelles and proteins and replicating DNA.
True
Cell growth occurs when the rate of cellular biosynthesis is_____ than the rate of the degradation of old organelles and biomolecules.
Higher
True
Eukaryotic cells divide via binary fision.
False
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