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The process is knwon as mitosis and it has following stages Phases of cell cycle and mitosis InterphaseThe mitotic phase is a relatively short period of the cell cycle. It alternates with the much longer interphase, where the cell prepares itself for cell division. Interphase is therefore not part of mitosis. Interphase is divided into three phases, G1 (first gap), S (synthesis), and G2 (second gap). During all three phases, the cell grows by producing proteins and cytoplasmic organelles. However, chromosomes are replicated only during the S phase. Thus, a cell grows (G1), continues to grow as it duplicates its chromosomes (S), grows more and prepares for mitosis (G2), and finally divides (M) before restarting the cycle. Preprophase In plant cells only, prophase is preceded by a pre-prophase stage. In highly vacuolated plant cells, the nucleus has to migrate into the center of the cell before mitosis can begin. This is achieved through the formation of a phragmosome, a transverse sheet of cytoplasm that bisects the cell along the future plane of cell division. In addition to phragmosome formation, preprophase is characterized by the formation of a ring of microtubules and actin filaments (called preprophase band) underneath the plasma membrane around the equatorial plane of the future mitotic spindle. This band marks the position where the cell will eventually divide. The cells of higher plants (such as the flowering plants) lack centrioles: with microtubules forming a spindle on the surface of the nucleus and then being organized into a spindle by the chromosomes themselves, after the nuclear membrane breaks down. The preprophase band disappears during nuclear envelope disassembly and spindle formation in prometaphase. Prophase Normally, the genetic material in the nucleus is in a loosely bundled coil called chromatin. At the onset of prophase, chromatin condenses together into a highly ordered structure called a chromosome. Since the genetic material has already been duplicated earlier in S phase, the replicated chromosomes have two sister chromatids, bound together at the centromere by the cohesion complex. Chromosomes are visible at high magnification through a light microscope. Close to the nucleus are structures called centrosomes, which are made of a pair of centrioles. The centrosome is the coordinating center for the cell's microtubules. A cell inherits a single centrosome at cell division, which replicates before a new mitosis begins, giving a pair of centrosomes. The two centrosomes nucleate microtubules (which may be thought of as cellular ropes or poles) to form the spindle by polymerizing soluble tubulin. Molecular motor proteins then push the centrosomes along these microtubules to opposite side of the cell. Although centrosomes help organize microtubule assembly, they are not essential for the formation of the spindle, since they are absent from plants, and centrosomes are not always used in meiosis. PrometaphaseThe nuclear envelope disassembles and microtubules invade the nuclear space. This is called open mitosis, and it occurs in most multicellular organisms. Fungi and some protists, such as algae or trichomonads, undergo a variation called closed mitosis where the spindle forms inside the nucleus or its microtubules are able to penetrate an intact nuclear envelope. Each chromosome forms two kinetochores at the centromere, one attached at each chromatid. A kinetochore is a complex protein structure that is analogous to a ring for the microtubule hook; it is the point where microtubules attach themselves to the chromosome. Although the kinetochore structure and function are not fully understood, it is known that it contains some form of molecular motor. When a microtubule connects with the kinetochore, the motor activates, using energy from ATP to "crawl" up the tube toward the originating centrosome. This motor activity, coupled with polymerisation and depolymerisation of microtubules, provides the pulling force necessary to later separate the chromosome's two chromatids. When the spindle grows to sufficient length, kinetochore microtubules begin searching for kinetochores to attach to. A number of nonkinetochore microtubules find and interact with corresponding nonkinetochore microtubules from the opposite centrosome to form the mitotic spindle. Prometaphase is sometimes considered part of prophase. MetaphaseAs microtubules find and attach to kinetochores in prometaphase, the centromeres of the chromosomes convene along the metaphase plate or equatorial plane, an imaginary line that is equidistant from the two centrosome poles. This even alignment is due to the counterbalance of the pulling powers generated by the opposing kinetochores, analogous to a tug-of-war between people of equal strength. In certain types of cells, chromosomes do not line up at the metaphase plate and instead move back and forth between the poles randomly, only roughly lining up along the midline. Metaphase comes from the Greek μετα meaning "after." Because proper chromosome separation requires that every kinetochore be attached to a bundle of microtubules (spindle fibres), it is thought that unattached kinetochores generate a signal to prevent premature progression to anaphase without all chromosomes being aligned. The signal creates the mitotic spindle checkpoint. AnaphaseWhen every kinetochore is attached to a cluster of microtubules and the chromosomes have lined up along the metaphase plate, the cell proceeds to anaphase (from the Greek ανα meaning "up," "against," "back," or "re-"). Two events then occur; First, the proteins that bind sister chromatids together are cleaved, allowing them to separate. These sister chromatids, which have now become distinct sister chromosomes, are pulled apart by shortening kinetochore microtubules and move toward the respective centrosomes to which they are attached. Next, the nonkinetochore microtubules elongate, pushing the centrosomes (and the set of chromosomes to which they are attached) apart to opposite ends of the cell. The force that causes the centrosomes to move towards the ends of the cell is still unknown, although there is a theory that suggests that the rapid assembly and breakdown of microtubules may cause this movement. These two stages are sometimes called early and late anaphase. Early anaphase is usually defined as the separation of the sister chromatids, while late anaphase is the elongation of the microtubules and the microtubules being pulled farther apart. At the end of anaphase, the cell has succeeded in separating identical copies of the genetic material into two distinct populations. TelophaseTelophase (from the Greek τελος meaning "end") is a reversal of prophase and prometaphase events. It "cleans up" the after effects of mitosis. At telophase, the nonkinetochore microtubules continue to lengthen, elongating the cell even more. Corresponding sister chromosomes attach at opposite ends of the cell. A new nuclear envelope, using fragments of the parent cell's nuclear membrane, forms around each set of separated sister chromosomes. Both sets of chromosomes, now surrounded by new nuclei, unfold back into chromatin. Mitosis is complete, but cell division is not yet complete. CytokinesisCytokinesis is often mistakenly thought to be the final part of telophase; however, cytokinesis is a separate process that begins at the same time as telophase. Cytokinesis is technically not even a phase of mitosis, but rather a separate process, necessary for completing cell division. In animal cells, a cleavage furrow (pinch) containing a contractile ring develops where the metaphase plate used to be, pinching off the separated nuclei. In both animal and plant cells, cell division is also driven by vesicles derived from the Golgi apparatus, which move along microtubules to the middle of the cell. In plants this structure coalesces into a cell plate at the center of the phragmoplast and develops into a cell wall, separating the two nuclei. The phragmoplast is a microtubule structure typical for higher plants, whereas some green algae use a phycoplast microtubule array during cytokinesis. Each daughter cell has a complete copy of the genome of its parent cell. The end of cytokinesis marks the end of the M-phase.
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The process where one cell divides into two identical cells is called binary fission. This is a form of asexual reproduction commonly observed in prokaryotic cells, such as bacteria. In binary fission, the genetic material is duplicated, and the cell splits into two daughter cells with identical genetic information.

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Mitosis produces two identical diploid cells from one diploid somatic cell.

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Eukaryotic cells (eg. animal and plant cells) use mitosis to divide into two identical daughter cells.

Prokaryotic cells use binary fission to divide into two identical daughter cells.

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cell division.

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Mitosis

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Q: What is the process where one cell divides into two identical ones?
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How do cells grow and expand?

Cells grow and expand through a process called cell division, where they replicate their genetic material and divide into two daughter cells. This process allows for the increase in cell number and contributes to overall tissue growth. Additionally, cells can also grow in size by accumulating more cytoplasmic and organelle content.


What type of cell division produces gametes?

Meiosis is the type of cell division that produces gametes (sperm and egg cells). This process involves two rounds of cell division to reduce chromosome number by half and create genetically diverse gametes.


How does the daughter cells produced from meiosis differ from those produced by mitosis?

Daughter cells produced from meiosis are genetically different from each other and from the parent cell, resulting in genetic diversity. In contrast, daughter cells produced from mitosis are genetically identical to each other and to the parent cell. Meiosis involves two rounds of cell division, resulting in four haploid daughter cells, while mitosis involves one round of cell division, resulting in two diploid daughter cells.


What process is responsible for new tissue growth and the healing?

The process responsible for new tissue growth and healing is called tissue regeneration. This involves the replacement of damaged or lost cells with new ones to restore normal tissue structure and function. Key factors involved in this process include inflammation, cell proliferation, and tissue remodeling guided by growth factors and signaling molecules.


What part of the cell captures energy from sunlight and uses it to produce food for the cell?

The chlorophyll in the chloroplasts of PLANT cells does this.

Related questions

What is the process of which viable cells replace dead cells of the same type?

Yes, it can. It happens in the process of cell division. First the nucleus divides then each nucleus move to each end of the cell. Eventually the nucleus divides into two so it replaces the dead ones. Yes, it can. It happens in the process of cell division. First the nucleus divides then each nucleus move to each end of the cell. Eventually the nucleus divides into two so it replaces the dead ones.


When a cell splits into two genetically identical daughter cells?

This process is called cell division, specifically mitosis in somatic cells or meiosis in germ cells. During cell division, the genetic material is duplicated and then segregated equally between the two daughter cells to maintain genetic identity.


Does binary fission produce excess of energy or creates new species?

Binary fission does not produce an excess of energy, it simply divides a single organism into two identical daughter cells. Additionally, binary fission does not create new species, as the process typically occurs within a single species reproducing asexually.


Which process requires no energy from cell?

The passive ones, like diffusion


The exactness of the duplication process in DNA?

It can be assures that new DNA molecules will be identical to the original ones. BY:MARIA J<3


A brother and sister can be identical twins?

Yes and no, they are in the sense that both clones and Identical Twins do have the same DNA, however the way that the reproduction occurs in far different. Identical twins are "created" by a fertilized cell dividing in two forming two identical organisms. While clones go through a complex process, in which a nucleus is taken from a somatic (Body cell) and transplanted into a egg cell creating a new organism genetically identical to the firstHowever, Identical twins (nor are clones) aren't carbon copies of each other. Each twin goes through different environmental factors, so they are different people with different personalities and physical features.


How do organs repair themselves on a cellular level?

Organs can repair themselves through processes like cell division, where new cells replace damaged ones. This repair process can involve different types of cells depending on the specific organ. Stem cells, for example, play a crucial role in regenerating damaged tissues in various organs. The immune system also helps with organ repair by clearing out debris and promoting healing.


How do cells grow and expand?

Cells grow and expand through a process called cell division, where they replicate their genetic material and divide into two daughter cells. This process allows for the increase in cell number and contributes to overall tissue growth. Additionally, cells can also grow in size by accumulating more cytoplasmic and organelle content.


How does cell replication work?

Cell replication happens when a single DNA strand basically unzips down the middle but not completely. Both sides are identical to each other. Cells that form your hair and nails are examples of ones that are constantly dividing.


Is bacteria offspring identical or different to the parent cell?

cause there is parts of the parents DNA in the smaller ones


How are the clothes in Russia different from the ones in the US?

It is almost identical.


Budding and binary fission produce offspring that?

Budding and binary fission both produce genetically identical offspring. In budding, a small clone of the parent organism grows to become independent. In binary fission, the parent organism divides into two equal parts, each capable of growing into a new organism.