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What is the function of inhibition of protein synthesis during G2 phase?

Difficulty: Easy

Inhibition of protein synthesis during the G2 phase prevents the cell from undergoing mitosis.

what is cell cycle and what are its main phases?

Difficulty: Medium

Cell Cycle:

The cell cycle is the series of events from the time a cell is produced until it completes mitosis and produces new cells.

Main phases of the cell cycle:

The cell cycle consists of two major phases

  1. interphase
  2. mitotic phase (M phase)

The mitotic phase is a relatively short period of the cell cycle. It alternates with the much longer interphase, where the cell prepares itself for division. Interphase is the time when a cell's metabolic activity is very high, as it performs its various functions.

Phases of interphase:

It is divided into three phases.

  1. G1 (first gap), 2. S (synthesis), 3. G2 (second gap).

G1 phase:

After its production, a cell starts its cell cycle in the G1 phase. During this phase, the cell increases its supply of proteins, increases the number of many of its organelles (such as mitochondria, and ribosomes), and grows in size. This phase is also marked by the synthesis of various enzymes that are required in the next phase i.e. S phase for DNA replication.

Cells that have temporarily or permanently stopped dividing are said to have entered a state of quiescence called the GO phase.

S phase:

In this phase, the cell duplicates its chromosomes. The DNA molecule of each chromosome is copied, and new protein molecules are attached. The result is that each chromosome consists of two sister chromatids, which contain identical genes.

G2 phase:

In the G2 phase, the cell prepares proteins that are essential for mitosis mainly for the production of spindle fibers. After the G2 phase of interphase, the cell enters the division phase le. M phase. It is characterized by mitosis, in which the cell divides into the two daughter cells.

G0 phase:

In multicellular eukaryotes, cells enter the G0 state from G1 and may remain quiescent for long periods, possibly indefinitely (as is often the case for neurons). Some cell types in mature organisms, such as some cells of the liver and kidney, enter the G0 phase semi-permanently and can only be induced to begin dividing again under very specific circumstances. Other cells, such as epithelial cells, do not enter G0 and continue to divide throughout an organism's life.

Who gave the detailed account of stages of cell division?

Difficulty: Easy

A German Biologist Walther Flemming 1880 gave a detailed account of the stages of cell division. He observed in the dividing cell the nucleus passes through a series of changes which he called mitosis.

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State the function of somatic cells?

Difficulty: Easy

Somatic cells:

Somatic cells are those which are forming the body of an organism while germline cells are those which give rise to gametes. Somatic cells undergo mitosis while germline cells undergo meiosis.

Differentiate between open mitosis and closed mitosis?

Difficulty: Easy

Difference between open mitosis and closed mitosis:

In common mitosis, the nuclear membrane disappears and spindles are formed inside the cytoplasm. It is called “Open Mitosis”. Fundi and some protists undergo a variation called “Closed mitosis” where spindle forms inside the nucleus.

The S-phase of the interphase is important and a cell can never divide without it. Justify?

Difficulty: Easy

S-phase of interphase:

Mitosis is the type of cell division in which a cell divides into two daughter cells, each with the genetic equivalent of the parent cell i.e. same number of chromosomes as were present in the parent cell. Because each resultant daughter cell should be genetically identical to the parent cell, the parent cell must make a copy of each chromosome before mitosis. This occurs during the S phase of the interphase.

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How would you state the occurrence of mitosis?

Difficulty: Easy

Mitosis:

Mitosis is a type of division in which a cell divides into two daughter cells each with the genetic equivalent to that of the parent cell i.e. same number of chromosomes that were present in the parent cell.

Occurrence of Mitosis:

Because each resultant daughter cell should be genetically identical to the parent, the parent cell must make each copy of the chromosome before mitosis. This occurs during S-phase of interphase. Mitosis occurs exclusively in Eukaryotic cells. In multicellular organisms, the somatic cells undergo mitosis.

How in each cell division, the genetic material was equally partitioned between the daughter cells.
Difficulty: Easy

Our body consists of 200 trillion cells, each of them derived from a single cell at the start of our life as a fertilized egg. Many millions of successive cell divisions occurred while our body was reaching its present form. In each of these divisions, the genetic material was equally partitioned between the daughter cells and it happened through mitosis.

Why Prokaryotes cannot be properly said to undergo mitosis?

Difficulty: Easy

Prokaryotic cells undergo a process similar to mitosis called, Binary fission. However, prokaryotes cannot be properly said to undergo mitosis because they lack a nucleus and only have a single chromosome with no centromere.

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Describe the division of major phases of mitosis?

Difficulty: Medium

Phases of mitosis:

The process of mitosis is complex and highly regulated. The sequence of events is divided into major phases.

  1. Karyokinesis:

The division of the nucleus is called karyokinesis.

  1. Cytokinesis:

The division of cytoplasm is known as cytokinesis.

Phases of karyokinesis:

The division of the nucleus is divided into four phases:

  1. Prophase ii.  Metaphase iii.  Anaphase iv.  Telophase

 

How would you state the events of Prophase?

Difficulty: Medium

Events of Prophase:

Chromatin: Normally, the genetic material in the nucleus is in a loose thread-like form called chromatin.

Chromosomes:

At the one prophase, chromatin condenses into highly ordered structures called chromosomes. Since the genetic material has already been duplicated earlier in the S phase, each chromosome is made of two sister chromatids, bound together at the centromere. Each chromosome has a kinetochore at the centromere. A kinetochore is a complex protein structure that is the point where spindle fibers attach.

Centrosome:

Close to the nucleus are two centrioles collectively called a centrosome. Each centriole replicates and thus two daughter centrosomes are formed. Each daughter centrosome acts as a coordinating center for the cell's microtubules.

Mitotic Spindle:

The two centrosomes give rise to microtubules by polymerizing (joining monomers to form polymers) the tubulin proteins present in the cytoplasm. The microtubules thus formed are called spindle fibers, and the complete set of the spindle fibers is known as the mitotic spindle. During the formation of the mitotic spindle, the centrosomes migrate to the opposite sides of the nucleus. The nucleolus and the nuclear envelope have degraded, and spindle fibers have invaded the central space.

Aggregation of Tubulin Proteins:

In highly vacuolated plant cells, the nucleus has to migrate into the center of the cell before prophase. The cells of plants lack centrioles. Instead, spindle fibers are formed by the aggregation of tubulin proteins on the surface of the nuclear envelope during prophase. 

How would you state the events of metaphase?

Difficulty: Easy

Events of Metaphase:

When the spindle grows to sufficient length some of the spindle fibers, known as kinetochore fibers, begin searching for kinetochores to attach. When kinetochore fibers attach to kinetochore the, centromeres of chromosomes arrange themselves along the equator of the cell forming a metaphase plate. Several other fibers(non-kinetochore) interact with the corresponding fibers from the opposite centrosome.

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How would you state the events of anaphase?

Difficulty: Easy

Events of Anaphase:

When a kinetochore spindle fiber connects with a kinetochore of the chromosome, it starts to pull towards the originating centrosomes. The pulling force divides the chromosome’s sister chromatids allowing them to separate. These sister chromatids are now sister chromosomes and they are pulled apart by the shortening of the kinetochore spindle fibers towards the respective centrosomes. Next, the other spindle fibers (without kinetochore) elongate, pushing the centrosomes and the set of chromosomes apart to the opposite end of the cells. At the end of Anaphase, the cell has succeeded in separating identical copies of the genetic material into two distinct groups.

How would you state the events of Telophase?

Difficulty: Easy

Events of telophase:

Telophase is a reversal of Prophase. A new nuclear envelope forms around each set of separated sister chromosomes. Both sets of chromosomes, now surrounded by two nuclear envelopes, unfold back into chromatin. Nuclear division is complete but cell division has yet one more step to complete.

Describe cytokinesis in animal and plant cells?

Difficulty: Medium

Cytokinesis in Animal cells:

Cytokinesis is the division of the cytoplasm. In animal cells, cytokinesis occurs by a process known as cleavage. A cleavage furrow develops where the metaphase plate used to be. At the side of the furrow, the cytoplasm has a ring of microfilaments (apart from the cytoskeleton). The ring contracts Deeping the furrow and eventually pinching the parent cell into two.

Cytokinesis in plant cells:

Cytokinesis in plant cells occurs differently. Vesicles derived from the Golgi apparatus move to the middle of the cell and fuse to form a membrane-bounded disc called the cell plate or Phragmoplast.

The plate grows outward and more vesicles fuse with it. Finally, the membranes of the cell plate fuse with the plasma membrane, and its contents join the parental cell wall. The result is two daughter cells each bounded by its plasm membrane and cell wall.

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How is mitosis significant?

Difficulty: Medium

Significance of mitosis:

  1. Maintenance of the chromosomal set:

The importance of mitosis is the maintenance of the chromosomal set i.e. each daughter cell receives chromosomes that are alike in composition and equal in number to the chromosomes of the parent cell.

  1. Development and Growth:

The number of cells within an organism increases by mitosis and this is the basis of development from a single cell zygote to the multicellular body and the growth 3. Cell Replacement: Cells are constantly sloughed off, dying, and being replaced by new ones in the skin and digestive tract. When damaged tissues are repaired, the new cells must be exact copies of the cells being replaced to retain the normal function of cells. Similarly, red blood cells have short life spans of about 4 months and need to be replaced constantly by mitosis.

  1. Regeneration:

Some organisms can regenerate parts of the body, and the production of new cells is achieved by mitosis. For example, a sea star regenerates its lost arm through mitosis.

  1. Asexual reproduction:

Some organisms produce genetically similar offspring Mitosis is a means for asexual reproduction. For example, hydra reproduces asexually by budding. During this process, mitosis forms a mass of cells called bud on the surface of the hydra. The mitosis continues in the cells of the bud and it grows into a new individual. The same happens during asexual reproduction (vegetative propagation) in plants.

Describe Errors in Mitosis?

Difficulty: Medium

Errors in Mitosis:

  1. Chromosomes may fail to separate:

Although errors in mitosis are rare the process may go wrong, especially during the cell divisions in the zygote. For Example, during the anaphase of mitosis, a chromosome may fail to separate. One daughter cell will receive both sister chromosomes and the other will receive none.

  1. Damaging of chromosomes;

Occasionally, chromosomes may be damaged during mitosis. An arm of the chromosome may be broken or maybe incorrectly reattach to another or the original chromosome, but in reverse orientation.

Errors in control of mitosis may cause cancer. All cells have genes that control the number and timing of mitosis. Sometimes, a mutation occurs in that genes and the cells continue to divide. It results in the growth of abnormal cells called tumors. As long as these tumors remain in their original location, they are called benign. But if they invade other tissues, they are called malignant (cancerous) and their cells are called cancer cells. Such tumors can send their cancer cells to other parts of the body where new tumors may form. This phenomenon is called metastasis 9spreading of disease).

Nucleus is only visible in interphase while chromosomes are only visible in cell division stage. Why is that?

Difficulty: Easy

The nuclear membrane breaks during cell division so there is no distinct nucleus. In interphase nuclear material is in the form of fine chromatin which condenses during prophase to give the shape of chromosomes.

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Define Meiosis?

Difficulty: Easy

Meiosis:

Meiosis is the process by which one diploid eukaryotic cell divides to generate four haploid daughter cells. Diploid means the cells in which chromosomes are in pairs (homologous pairs) while haploid means cells with half number of chromosomes i.e. chromosomes are not in the form of pairs.

Describe the events that occur during the stages of Meiosis?

Difficulty: Hard

Meiosis: Phases of Meiosis:

The preparatory steps of meiosis are identical to the interphase of the mitotic cell cycle. Interphase is divided into the same three phases i.e. G1, S phase, and G2. Interphase is followed by meiosis I and meiosis II.

Meiosis I:

In meiosis, I, the homologous chromosomes in a diploid cell separate and so haploid daughter cells are produced. It is the step in meiosis that gene sets genetic diversity.

Steps involved in Meiosis I:

Meiosis I occur in two main steps i.e. karyokinesis and cytokinesis

Subdivision of Karyokinesis of Meiosis

1: The karyokinesis of Meiosis l is subdivided into:

  1. prophase I, ii. metaphase I, iii. anaphase I. iv. telophase l.
  2. Prophase I:

Prophase I is the longest phase in meiosis. During this stage, individual chromosomes begin to condense within the nucleus. Then the homologous chromosomes line up with each other and form pairs.

Bivalent:

The combined homologous chromosomes are said to be bivalent. They may also be referred to as a tetrad, a reference to the four sister chromatids.

Chiasmata:

The two non-sister chromatids of homologous chromosomes become "zipped" together, forming complexes known as chiasmata, in a process known as synapsis.

Crossing over:

In the next stage, the non-sister chromatids of homologous chromosomes randomly exchange their segments and the phenomenon is known as crossing over. The exchange of segments results in a recombination of genetic information. After crossing over the homologous chromosomes separate from one another. However, they remain tightly bound at chiasmata, the regions where crossing-over occurred.

Spindle fibers:

Chromosomes condense further, the nucleoli disappear, and the nuclear envelope disintegrates. Centrioles, which were duplicated during interphase, migrate to the two poles of the cell. They give rise to spindle fibers. The kinetochore spindle fibers attach to the kinetochores of chromosomes. While the non-kinetochore spindle fibers from both sides interact with each other. There are two kinetochores on each tetrad, one for each kinetochore spindle fiber.

  1. Metaphase I:

As kinetochore spindle fibers from both centrioles attach to their respective kinetochores, the homologous chromosomes align along an equatorial plane forming the metaphase plate.

  1. Anaphase 1:

Kinetochore spindle fibers shorten, breaking the chiasmata and pulling homologous chromosomes apart. Since each chromosome only has one kinetochore, one chromosome is pulled toward one pole, forming two diploid sets. Each chromosome still contains a pair of sister chromatids.

  1. Telophase 1:

The first meiotic division ends when the chromosomes arrive at the poles. Each pole now has half the number of chromosomes but each chromosome still consists of a pair of chromatids. The spindle network disappears, and a new nuclear envelope surrounds each haploid set. The chromosomes uncoil back into chromatin. Cytokinesis, the pinching of the cell membrane in animal cells or the formation of the cell wall in plant cells, occurs, completing the creation of two daughter cells. After meiosis, both haploid daughter cells enter a period of rest known as interkinesis or interphase II. The interphase il is different from the interphase of mitosis and meiosis 1 There is no S-phase and so no DNA replication occurs during this stage

Meiosis II:

It is the second part of the meiotic process. Much of this part is similar to mitosis.it is subdivided into

  1. prophase II, ii. metaphase II, iii. anaphase II, iv. telophase II
  2. Prophase ll:

Prophase II takes much less time compared to prophase I. In this prophase, the nucleoli and the nuclear envelope disappear and the chromatin condenses Centrioles move to the polar regions and make spindle fibers.

  1. In metaphase II:

In metaphase II the chromosomes attach with the kinetochore spindle fibers 1 align at the equator of the cell. This is followed by anaphase II.

  1. In anaphase ll:

In anaphase II the centromeres are cleaved and sister chromatids are pulled ….

The sister chromatids are now called sister chromosomes, and they are ….

toward opposing poles.

  1. The telophase II:

The telophase Il is marked with uncoiling and disappearance of the chrom…. Nuclear envelopes reform; cleavage or cell wall formation eventually pre…. total of 4 daughter cells, each with a haploid set of chromosomes.

During crossing over genetic material is exchanged between sister/nonsister chromatids of homologous/non-homologous chromosomes.

Difficulty: Easy

Non-sister chromatids of homologous chromosomes.

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Who observed the phenomenon of crossing over in Fruit fly Drosophila Melanogaster?

Difficulty: Easy

In 1911 the American geneticist Thomas Hunt Morgan observed the phenomenon of crossing over in fruit fly Drosophila melanogaster.

Describe the significance of Meiosis?

Difficulty: Hard

Significance of Meiosis:

  1. Reproduction and inheritance:

The significance of meiosis for reproduction and inheritance was described…. by German biologist August Weismann, who noted that meiosis was…. transform one diploid cell into four haploid cells if the number of chror…. to be maintained

       2; Essential for sexual reproduction:                                                                                                             

Meiosis is essential for sexual reproduction and therefore …. includes single-celled organisms that reproduce sexually…. archaea or prokaryotes, which reproduce asexually by bi….

      3; Diploid gamete:

Humans, for example, are diploid creatures. The diploid gamete-mother cells undergo meiosis to produce haploid gametes, which are spermatozoa in males and ova in females. These gametes then fertilize, producing a diploid zygote. The zygote undergoes repeated mitosis and develops into a new organism.

      4; Haploid gametes:

Many fungi and many protozoa are haploid. Such organisms produce haploid gametes through mitosis. When two gametes fuse, they form a diploid zygote, which undergoes meiosis immediately, creating four haploid cells. These cells undergo mitosis to create the haploid organismAlternation of generations:

Plan's life cycle shows alternation of generations. The cells of the diploid sporophyte generation undergo meiosis to produce haploid spores, which grow into haploid gametophyte generations. The haploid gametophyte generation produces haploid gametes through mitosis. The gametes combine to produce the diploid zygote. The zygote undergoes repeated mitosis to become the diploid sporophyte.

      5; Genetic Variation:

Because the chromosomes of each parent undergo genetic recombination during meiosis, each gamete, and thus each zygote, will have a unique genetic makeup. In other words, meiosis and sexual reproduction produce genetic variation. Thus, meiosis allows a species to bring variations to handle the changes in the environment.

 

Make a list of errors in Meiosis.

Difficulty: Medium

Errors in Meiosis:

  1. The normal separation of chromosomes or sister chromatids is termed as disjunction. When the separation is not normal, it is called non-disjunction. This results in the production of gametes which have either more or less than the usual number of chromosomes i.e. there may be trisomy (2n+1) or monosomy (2n-1).
  2. It causes several medical conditions in humans such as Down’s syndrome (trisomy of chromosome 21), Klinefelter’s Syndrome (an extra X chromosome in males), Turner’s Syndrome (only one X chromosome present in females). Such individuals have 45 or 47 chromosomes. 

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How many cells die each day due to Apoptosis in an adult human?

Difficulty: Easy

Between 50 billion and 70 billion cells die each day due to apoptosis in an adult human.

Describe necrosis and Apoptosis?

Difficulty: Medium

Necrosis:

….sis is the name given to the accidental death of cells and living tissue. Necrosis is ….quential than apoptosis.

….s of necrosis:

…. Are many causes of necrosis including injury, infection, cancer, infarction, …. And inflammation. Necrosis is accompanied by the release of special ….s from the lysosomes. The lysosomal enzymes break cellular components and…. Also released outside the cell to break other surrounding cells. Cells …. Necrosis may also release harmful chemicals that damage other cells.

Distinctive patterns of necrosis:

There are many distinctive patterns of necrosis e.g.

  1. Necrosis may occur when a cell is given hypoxic (with less oxygen) environments.
  2. Necrosis may be usually associated with cellular destruction and pus formation (e.g. pneumonia).
  3. Necrosis may be due to blockage of the venous drainage of an organ or tissue.

Apoptosis and necrosis:

Apoptosis and necrosis are two phenomena of cell death.

Apoptosis:

Apoptosis is one of the main types of programmed cell death and involves a series of biochemical events. This process is controlled by extracellular signals (e.g. hormones) or intracellular signals (e.g. food deprivation, viral infection).

Series of events in apoptosis:

Following is the series of events in apoptosis.

  1. Cell shrinks and becomes rounded due to the breakdown of the cytoskeleton by enzymes.
  2. The cytoplasm appears dense, and the organelles appear tightly packed
  3. Chromatin undergoes condensation into compact patches against the nuclear envelope
  4. The nuclear envelope breaks and the DNA is fragmented. Thus, the nucleus breaks into several discrete chromatin bodies.
  5. The cell membrane shows irregular buds known as blebs, through which the cellular components are discharged.
  6. The blebs break off from the cell and are now called apoptotic bodies, which are then phagocytosed by other cells.

Significance of apoptosis:

  1. Apoptosis can occur when a cell is damaged, infected with a virus, or undergoing stress conditions such as starvation. DNA damage from ionizing radiation or toxic chemicals can also induce apoptosis. The decision for apoptosis can come from the cell itself or the surrounding tissue.
  2. Apoptosis removes the damaged cell, preventing it from getting further nutrients from the organism, or preventing the spread of viral infection.
  3. Apoptosis generally gives advantages during an organism's life cycle. For example, the differentiation of fingers and toes in a developing human embryo requires cells between the fingers to initiate apoptosis so that the digits can separate.
  4. In the adult organism, the number of cells is kept relatively constant through cell death and division. Cells must be replaced when they become diseased or malfunctioning.

 

What are the causes of Necrosis?

Difficulty: Easy

Spider bites also cause Necrosis in some areas. Necrosis can arise from a lack of proper care to a wound site.

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Describe the difference between meiosis and mitosis?

Difficulty: Easy

Difference between meiosis and mitosis:

Meiosis is used in the sexual reproduction of organisms to combine male and female, through the spermatozoa and egg, to create a new, singular biological organism. Mitosis is used by a single-celled organism to reproduce or in the organic growth of tissues, fibers, and mirbanes.

Give a comprehensive comparison between meiosis and Mitosis?

Difficulty: Medium

Meiosis vs Mitosis:

 

Meiosis

Mitosis

Definition: 

A type of cellular reproduction in which the number of chromosomes is reduced by half through the separation of homologous chromosomes in a diploid cell.

A process of asexual reproduction in which the cell divides into two producing a replica with an equal number of chromosomes in a haploid cell. 

Several daughter cells produced:

4

2

Creates:

Sex cells only: Female egg cells or male sperm cells makes makes makes

Makes everything other than sex cells

Occurs in 

Humans, Animals, Plants, and fungi

All organisms produces 

Produces: 

Four haploid Daughter cells to

Two diploid daughter cells

Steps:

The steps of Meiosis are interphase, Prophase I, Metaphase I, Anaphase I, Telophase I, Prophase II, Metaphase II, Anaphase II, and Telophase II

The steps of Mitosis are interphase, Prophase, Metaphase, Anaphase, Telophases,e, and Cytokinesis. 

Discovered by:

Oscar Hertwig

Walther Flemming

Type of Reproduction:

Sexual

Asexual

Genetically:

Different

Identical

Cytokinesis:

Occurs in telophase I and Telophase II

Occurs in telophase

Number of Divisions:

2

1

Pairing of Homologues:

Yes

No

Function: 

Sexual Reproduction

Cellular reproduction & general growth and repair of the body chromosome chromosome

Chromosome number: 

Reduced by half remains remains

Remains the same

Karyokinesis: 

Occurs in interphase I

Occurs in interphase

Crossing Over:

Mixing of chromosomes

Do not occur

Centromeres split: 

The centromeres do not separate during Anaphase I but during anaphase II.

The centromeres split during anaphase

Occurrence of crossing over 

Yes

No

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