Cell Division Mitosis And Meiosis Biology Essay

The cell rhythm describes the sequence of events that occurs during the life of most eucaryotic cells. It spans through mitosis and cytokinesis, ( together referred to as the M stage ) , so through interphase ( G1, S, and G2. )Cell division involves the distribution of indistinguishable familial stuff, DNA, to two girl cells. It consists of two stages, atomic division followed by cytokinesis. Nuclear division divides the familial stuff in the karyon, while cytokinesis divides the cytoplasm.There are two sorts of atomic division-mitosis and miosis.Mitosis divides the karyon so that both girl cells are genetically indistinguishable.

In contrast, miosis is a decrease division, bring forthing genetically variable girl cells that contain half the familial information of the parent cell.In either mitosis or miosis, the whole procedure begins with the condensation ( shortening and inspissating ) of the familial stuff, chromatin, into tightly coiled organic structures, the chromosomes. Each chromosome is made of two indistinguishable halves called sister chromatids joined at the kinetochore. Each chromatid consists of a individual, tightly coiled molecule of DNA, the familial stuff of the cell.

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In diploid cells, there are two transcripts of every chromosome, organizing a brace, called homologous chromosomes. In a homologous brace of chromosomes, one homologue originated from the maternal parent, the other from the paternal parent.


There are four stages in mitosis – prophase, metaphase, anaphase, and telophase.

Prophase -The nucleoli disappear and the chromatin condenses into chromosomes > the atomic envelope is degraded > the mitotic spindle is assembled.The development of the mitotic spindle begins as the central bodies move apart to opposite terminals ( or poles ) of the karyon. As they move apart, microtubules develop from each central body. Microtubules from each central body connect to a specialised part in the kinetochore called a centromere.Metaphase -The chromosomes are distributed across the metaphase home base, an fanciful plane lying at the equator, between the two poles of the spindle. Metaphase ends when the microtubules, still attached to the centromeres, draw each chromosome apart into two chromatids. Each chromatid is complete with a kinetochore and a centromere. Once separated from its sister chromatid, each chromatid is called a chromosome.

Anaphase -Menachem begins after the chromosomes are separated into sister chromatids. The microtubules connected to the chromatids shorten, therefore, drawing the chromosomes to opposite poles. The microtubules shorten due to decoupling of tubulin units at their chromosome ends. At the terminal of anaphase, each pole has a complete set of chromosomes, the same figure of chromosomes as the original cell. Since they consist of merely one chromatid, each chromosome contains merely a individual transcript of the DNA molecule.Telophase -The procedure of atomic division is completed here. A atomic envelope develops around each pole, organizingtwo karyon.

The chromosomes within each of these nuclei disperse into chromatin, and the nucleoli reappear.A constituent portion of the Telophase called Cytokinesis ( in my sentiment ) creates two girl cells by a procedure known as cytoplasmatic cleavage.Whereas conventional mitosis is all about atomic division into two girl karyon, cytokinesis embodies cytoplasmic division to organize two cells.

Interphase -Sequel to completion of mitosis ( cytokinesis, inclusive ) , interphase begins. It is the ‘resting period ‘ ( The cell is non actively spliting ) , and arguably the ‘growth period ‘ of the cell rhythm. This growing period is divided into three stages, designated G1, S, and G2 based of their built-in activities. Although the labels G1 and G2 are associated with growing and S with synthesis, it is deserving observing that growing takes topographic point during all three stages. However, S stage marks the clip during which the 2nd DNA molecule for each chromosome is synthesized. As a consequence of this DNA reproduction, each chromosome that appears at the beginning of the followingmitotic division will look as two sister chromatids. During the G2 period of growing, stuffs for the following mitotic division are prepared.


Meiosis is really similar to mitosis, nevertheless, major differentiation is that miosis consists of two groups of divisions, miosis I and miosis II ( both dwelling of 4 sub-stages ) and occurs merely in sexually reproducing beings.

In miosis I homologous chromosomes pair at the metaphase home base, and so the homologues migrate to opposite poles, while, in miosis II, chromosomes spread across the metaphase home base and sister chromatids separate and migrate to opposite poles. Therefore, miosis II is correspondent to mitosis. A sum-up of each meiotic phase follows:

Meiosis I

Prophase IStarts like prophase of mitosis. The nucleolus disappears > chromatin condenses into chromosomes> the atomic envelope dissolves> the spindle setup develops.

Unlike mitosis, nevertheless, one time the chromosomes are condensed, homologous chromosomes brace, a procedure called synapsis. These braces of homologous chromosomes are called fours ( a group of four chromatids ) or bivalents ( two braces ) . During synapsis, matching parts along non-sister chromatids form close associations called decussations – sites where familial stuff is exchanged between non-sister homologous chromatids, a procedure called crossing over.Metaphase IHomologous braces of chromosomes are spread across the metaphase home base. Microtubules widening from one pole are attached to the centromere of one member of each homologous brace. Microtubules from the other pole are connected to the 2nd member of each homologous brace.

Anaphase ICommences when homologues within fours uncouple as they are pulled to opposite poles.

Telophase I

Chromosomes are located at their several poles, and a atomic membrane develops around them. Each pole forms a new karyon that will hold half the figure of chromosomes, but each chromosome will incorporate two chromatids.

Since girl karyon will hold half the figure of chromosomes, cells that they finally form will be monoploid.As portion of telophase I, the cells begin cytokinesis and signifier cleavage furrows or cell home bases. In other species, cytokinesis is delayed until after miosis II.

Besides, a short interphase II may get down. No reproduction of chromosomes occurs during this period. Alternatively, portion II of miosis Begins in both girl karyon.

Meiosis II

Prophase IIThe atomic envelope disappears and the spindle develops. There are no decussation and no crossing over of familial stuff as in prophase I.Metaphase IIChromosomes align singly on the metaphase home base ( non in fours as in metaphase I ) . Single alliance of chromosomes is precisely what happens in mitosis except that now there is merely half the figure of chromosomes.

Anaphase IIEach chromosome is pulled apart into two chromatids by the microtubules of the spindle setup. The chromatids ( now chromosomes ) migrate to their several poles. Similar to what happens in mitosis except that now there is merely half the figure of chromosomes.Telophase IIThe atomic envelope reappears at each pole and cytokinesis occurs. The terminal consequence of miosis is four haploid cells ( chromosome make-up of each girl cell designated by N ) . Each cell contains half the figure of chromosomes, and each chromosome consists of merely one chromatid.

Subsequently in interphase, a 2nd chromatid in each chromosome is replicated, but the cell will still hold merely half the figure of chromosomes.

Consequence of Meiotic Error

Sometimes, a set of chromosomes has an excess or a missing chromosome. This occurs because of non-disjunction -the chromosomes failed to divide decently during miosis. This mistake, which produces the incorrect figure of chromosomes in a cell, consequences in terrible familial defects.

For illustration, worlds typically have 23 braces of chromosomes, but persons with Down ‘s syndrome have three-instead of two-copies of the 21st chromosome. A status known as trisomy and designated as 2n+1Chromosomal abnormalcies besides occur if one or more sections of a chromosome interruption. The most common illustration is translocation ( a section of a chromosome moves to another chromosome ) .

Translocation involves jumping genes, DNA segments that have the ability to travel around the genome. Sometimes when they move, they leave behind mutants, and they can do mutants by infixing into a cistron. Fortunately, in most instances, damaged Deoxyribonucleic acid can normally be repaired with particular fix enzymes.

A Comparison between Mitosis and Meiosis

Regulation of the Cell Cycle

The cell-cycle control system triggers the events of the cell rhythm and ensures that these events are decently timed and occur in the right order. The control system responds to assorted intracellular and extracellular signals and arrests the rhythm when the cell either fails to finish an indispensable cell-cycle procedure or brushs unfavorable environmental or intracellular conditions. This control system comprises of several checkpoints – a critical control point in the cell rhythm.Major checkpoints include G1, G2, and M checkpointsG1 checkpoint – the Restriction Point.

It ensures that the cell is big plenty to split, and that adequate foods are available to back up the ensuing girl cells.G2 checkpoint – ensures that DNA reproduction in S stage has been completed successfullyMetaphase checkpoint – ensures that all of the chromosomes are attached to the mitotic spindle by a centromere.Cyclin-dependent protein kinases ( Cdks ) – as the name implies, depend on cyclin for their activity. Oscillations in the activities of assorted cyclin-Cdk composites control assorted cell-cycle events. Therefore, propulsion of S-phase cyclin-Cdk composites ( S-Cdk ) initiates S stage, while activation of M-phase cyclin-Cdk composites ( M-Cdk ) triggers mitosis. The mechanisms that control the activities of cyclin-Cdk composites include phosphorylation of the Cdk fractional monetary unit, binding of Cdk inhibitor proteins ( CIPs ) , proteolysis of cyclins, and alterations in the written text of cistrons encoding Cdk regulators.

The cell-cycle control system besides depends crucially on two extra enzyme composites, the anaphase advancing complex ( APC ) and SCF ubiquitin ligases, which catalyze the ubiquitylation and attendant devastation of specific regulative proteins that control critical events in the rhythm.Growth factors – Cellular plasma membranes have receptors for external molecules, or growing factors, thatexcite a cell to split. One such growing factor is produced by damaged cells, exciting other cells to split. More than 50 different growing factors are known.

Density-dependent suppression – Conventionally, cells stop spliting when the environing cell denseness reaches a certain upper limit.Anchorage dependance – Some cells can non split except they are attached to an external surface, such as the level surface of a neighbouring cell ( or the side of a civilization dish ) .Cells Which No Longer Respond to Cell-Cycle Controls – Cancer Cells Cancer is characterized by uncontrolled cell growing and division.

Transformed/Mutated cells, cells that have become cancerous, proliferate without respect to cell rhythm checkpoints ( Cancer cells do non exhibit contact suppression ) , density-dependent suppression ( If cultured, they continue to turn on top of each other when the entire country of the petri dish has been covered ) , anchorage dependance, and other regulative mechanisms ( or possess unnatural signal transduction sequences which falsely convey growing signals thereby short-circuiting normal growing cheques ) . Therefore, malignant neoplastic disease is a disease of the cell rhythm.Acknowledgement – All diagrams/tables were got fromhypertext transfer protocol: //www.uic.edu/classes/bios/bios100/f05pm/lect13.htm


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