Interphase is a part of the cell cycle where the cell reproduces more DNA, it's the time when a cell accomplishes the most this is the time that the cell is preparing to divide. It really is duplicating its organells and increasing the quantity of cytoplasm it offers in order to endure cell division interphase constitutes the longest amount of the cell cycle and is split into three successive phases.
2. 1. 1. G1 Phase:
The first area of the inter phase is G1. In G1phase the cellular metabolic process is high in which cell normally grows in size. And synthesis of m-RNA, t-RNA, r-RNA and proteins occur. This phase involves accumulation and synthesis of specific enzymes needed to control DNA-synthesis and production of DNA base unit so the supply is at hand when synthesis being.
2. 1. 2. S Phase:
The S phase is the intermediate phase between G1growth phase (gap-1) and G2 growth phase (gap-2). During the part of cell cycle the DNA molecule are in reality duplicated to produce two similar daughter cells.
2. 1. 3. G2 Phase:
During the gap between DNA synthesis and mitosis, the cell will continue to grow. Additionally it is called pre-mitotic phase. In this particular phase energy is stored for chromosome movement. Mitotic specific protein RNA and microtubule subunit are synthesis.
2. 2. Mitotic Phase:
This phase involves the division of nucleus and division of cytoplasm. At this time the growth and protein production stop. All of the cell cycle centered on the complex and orderly division into two similar daughter cells. Mitosis is a lot shorter than inter phase. Lasting phase only 1 two hours. As with both G1 and G2, there is a checkpoint in the middle of mitosis that ensures the cell is ready to complete cell division actually stages of mitosis can be looked at at animal cell mitosis.
It is a process of nuclear and cell division where the numbers of chromosomes in daughter cells are identical to that of parent cell.
4. Phases of Mitosis:
Mitosis is a continuing process which has two phases.
4. 1. Karyokinesis:
This phase involves the nuclear division. Animal cell has a special structure for cell division called centriole. At the start of mitosis centriole is divided into two pairs. Each pairs migrate to the opposite side of the nucleus thus forming two poles of the dividing cell.
The microtubules including aster and spindle are called mitotic apparatus. There size is larger than nucleus. The function of the mitotic apparatus is to attach and capture chromosomes, align them effectively and separate them so that equal distribution of chromosomes should happen.
The microtubules are group of fibers that are three in number. They originate from each pair of centrioles. One set of microtubules is called astral microtubules which form aster outward. The other two sets form the spindle in which an example may be kinetochore microtubules and other is polar microtubules and other is polar microtubules.
4. 1. 1. Stages of Karyokinesis:
Karyokinesis can be split into four stages.
4. 1. 1. 1. Prophase:
Chromosomes can't be seen in the interphase stage even by electron microscope. However by using some special stains chromatin network of fine threads is seen to create chromatin. The next events happen in prophase.
Nuclear envelope along with nucleoli disappear
Centrioles completely migrate towards their poles
Mitotic apparatus is organized
Cytoplasm becomes more viscous
The chromatin material get condensed by folding and chromosomes appear as thin threads and finally become thick consisting of two chromatids attached with centromere
4. 1. 1. 2. Metaphase:
At metaphase chromosomes have become completely thick consisting of chromatid. These chromatids are mounted on centromere. The Cells has special area the kinetochore where kinetochore fibres of mitotic apparatus attach. The kinetochore fibers of spindle are attached to kinetochore region of chromosomes and align them at the equator of the spindle forming equatorial plate or metaphase plate. Each kinetochore gets two fibers each from opposite poles.
4. 1. 1. 3. Anaphase:
It is very important phase of mitosis. The kinetochore fibers of spindle contract toward their respective poles exert force which separates both chromatids from centromere. In this way two sister chromatids are formed. Half of them proceed to one pole and spouse towards other pole.
4. 1. 1. 4. Telophase:
As the chromosomes reach to their respective pole telophase starts. The chromosome starts unfolding and become chromatin material. Mitotic apparatus starts disappearing while nucleus and nuceolic appears and therefore two nucleoli are formed at each pole of the cell.
4. 2. Cytokinesis:
Cytokinesis is a phase of the mitosis in which whole of the cell divides. As of this phase the astral microtubules send signals to equatorial region of cell which activate action and myosin to form contractile ring. This contractile rings form cleavage furrow in the heart of cells which get deepens steadily and in the end divide the parent cell into two daughter cells.
Meiosis is a special type of cell division in which the amounts of chromosomes in daughter cells are reduced to half as compare to parent cell.
In animals it occurs in diploid cells at gamete formation while in plants it takes place at spore formation at gamete formation.
Meiosis may take put in place two divisions
The first meiotic division is reduction division and second meiotic division is like that of mitosis. After two divisions diploid cell produce four haploid cells.
5. 1. Stages of Meiosis I:
Meiosis I is further divided into four sub-stages as following
5. 1. 1. Prophase I:
Prophase I is a very long phase. The chromosomes in this phase behave like the homologous pairs which differs as that from mitosis. The similar chromosomes are called homologous chromosomes. Prophase I is split into five sub stages.
5. 1. 1. 1. Leptotene:
At this stage the chromosomes appear as lengthy narrow thread and the size of nucleus increase and homologous chromosomes become closer.
5. 1. 1. 2. Zygotene:
First essential phenomenon of meiosis i. e. pairing of homologous chromosomes called synapsis starts. This pairing is highly specific and exactly pointed, but with no definite starting point. As of this phase nuclei also disappears. Each paired but no fused complex structure is called bivalent or tetrad.
5. 1. 1. 3. Pachytene:
The pairing of homologous chromosomes is completed. Chromosomes are more and much more thick. Each bivalent has four chromatids, which wrap around one another. Non-sister chromatids of homologous chromosomes exchange their segments due to chiasmata formation. During the process called crossing over. In this manner reshuffling of genetic materials occur, which produces recombination.
5. 1. 1. 4. Diplotene:
The next stage of meiosis is diplotene where bivalents are distinct and contracted. In this phase the chiasmata of each bivalent undergoes terminalization that are the movement of two homologous chromosomes to the two ends. Through the stage of prophase due to chromosome contraction they are very distinct as obvious bivalent structure.
5. 1. 1. 5. Diakinesis:
Next phase is diakinesis where the chiasmata are fully terminalized and both chromosomes remain together though fully terminalized.
5. 1. 2. Metaphase I:
Nuclear membrane disorganize at the beginning of the phase. Spindle fibres originate and the kinetochore fibres put on the kinetochore of the homologous chromosomes from each pole and arrange bivalent at the equator. The sister chromatids of individual chromosomes in bivalent behave as a unit.
5. 1. 3. Anaphase I:
In this succeeding anaphase that is Anaphase I, the homologous centromeres move towards opposite direction of the pole. The centromere of every chromosome remains intact. The chromosome being separated there is absolutely no chaismata at this time.
5. 1. 4. Telophase:
Nuclear membranes organize around each group of chromosomes at two poles. Nucleoli reappear thus two nuclei each with half volume of chromosome is formed, down the road, cytoplasm divides thus terminating the first meiotic division.
Each cell cycle has two phase- interphase and mitotic phase. Inter phase is highly metabolic phase and subdivided into G1, S, G2 phases. Dividing phase involves the division of nucleus and division of cytoplasm.
Mitosis is an equational cell division occurs in somatic cells producing two cells of the same chromosomes range of parent cell. Karyokinesis occurs in four phase "prophase, anaphase, metaphase, telophase which is followed by cytokinesis. Meiosis is a reductional cell division occurs in germ cells producing four cells of half chromosomes number from that of parent cell, Nucleus divides twice in meiosis. Prophase I is of longer duration with substages leptotene, zygotene, pachytene. diplotene, diakinesis and is seen as a bivalent formation and crossing over through chaismata formation.
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