Cell Differentiation – NotesBard https://notesbard.com Find Here Funded PhD Programs, Postdoc Positions, Scholarships Fri, 18 Feb 2022 02:44:21 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 https://notesbard.com/wp-content/uploads/2024/04/NotesBard-Logo-150x150.png Cell Differentiation – NotesBard https://notesbard.com 32 32 Cell Differentiation: Definition, Examples, Significance, and Facts https://notesbard.com/cell-differentiation-definition-example-significance/ https://notesbard.com/cell-differentiation-definition-example-significance/#respond Thu, 17 Feb 2022 23:46:47 +0000 https://notesbard.com/?p=502 What is Cell Differentiation?

Cell Differentiation is a part of plant development in which precursor cells give rise to a distinct cell that achieves different structural, metabolic and functional characteristics.

Example of Differentiation

For the movement of water and solutes plant cell possess tracheary elements which become dead at maturity, before their cell death tracheary cells become highly active and construct an elaborated patterned secondary cell wall.

Cell death is the genetically predetermined endpoint of tracheary element differentiation.

Significance of Differentiation

Differentiated cells become acquire specific properties to perform a particular task with less energy and more efficiently.

Role of Hormones in Differentiation

Differentiation is regulated by plant hormones i.e. the regeneration of damaged vascular tissue is induced by parenchyma cells under the influence of auxin hormone produced by young leaves and apical meristem.

Cytoplasm: Definition, Function, Examples, and Facts

What is Dedifferentiation?

In plants under certain conditions, the differentiated cells (cells lack division capacity) earn the ability of mitotic division is termed dedifferentiation.

For example- Completely differentiated parenchyma converts into cork cambium.

What is Re-differentiation?

When a dedifferentiated cell becomes mature but loses its division ability is referred to as redifferentiation.

For example- secondary phloem formation.

 

Cell Differentiation Citations

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Table of Contents

Cell Differentiation Definition

The process through which a cell undergoes changes in gene expression to become a more particular kind of cell is known as cellular differentiation, or simply cell differentiation. Cell differentiation permits multicellular animals to generate cell kinds and body designs that are uniquely functional. Genetics and their interplay with the environment influence the process of cell differentiation.

What is Cell Differentiation?

Every creature starts with a single cell. This single cell has the DNA that codes for all of the proteins that will be used by the adult organism. This cell, on the other hand, would not be functioning if it produced all of these proteins at the same time. This cell must split several times, and each time it divides, the cells must begin the process of cell differentiation.

The cell lines start to appear, and the cells become increasingly specialised. This process of cell differentiation eventually results in the formation of a complete organism with hundreds of distinct cell types. Stem cells are the initial mass of cells that have not undergone differentiation.

In contrast to normal cell division, which produces two identical daughter cells, stem cell division is asymmetric. One of the cells in this scenario is identical to the parent stem cell. Chemical triggers initiate cell differentiation in the other cell, and the cell begins to express the DNA of a certain cell type.

Embryonic stem cells are totipotent stem cells that have the ability to develop into complete animals. The body, on the other hand, has a large number of pluripotent cells. These cells have already gone through a cell differentiation process. These stem cells can only divide into a few different types of cells.

Somatic stem cells, for example, are found in bone marrow and can only form red blood cells. These cells are required for the continuous replacement of blood cells, which are essentially inert except for their ability to transport oxygen.

Cell Differentiation Examples

Cell Differentiation in Animals

A single-celled creature termed a zygote is generated after the fertilisation process in mammals. The zygote is totipotent, meaning it has the ability to develop into a complete creature. Even the blue whale, the world’s biggest mammal, begins with a single cell.

The zygote is the source of all complex tissues and organ systems, which vary greatly in shape and function. Cell differentiation begins early in the life of an organism. The cells have already begun expressing various parts of the DNA by the time the gastrula has developed.

The embryo’s earliest folding processes are triggered by these alterations. As the tissues develop, certain cells begin to release hormones, which function as chemical triggers to cause other cells to react.

Hormone signals control DNA expression in numerous bodily regions, causing additional cell differentiation. In humans, a primitive heart and circulatory system takes little over a month to develop. Many stem cells lose their totipotency as the systems develop, causing them to undergo cell differentiation.

This enables the rapid synthesis of specialised cells that the growing creature requires to maintain its development and successfully join the world. Tissues as diverse as brain tissue and muscle are produced from the same same cell through cell differentiation.

Cell Differentiation in Plants

The process of cell differentiation is remarkably similar to the plant lifecycle, which might appear foreign and complicated at times. While various hormones are involved, all plants begin with a single cell. A seed is little more than a protective shell for the zygote, which also serves as a food source.

In the animal world, it’s quite comparable to an egg. The zygote within divides into two cells and develops into a tiny embryo. As the seed is dispersed around the planet, development comes to a standstill. The seed will suck up moisture and restart the growth process after the winter, or whenever the climate is ideal. The embryo will start to divide into two meristems.

A meristem is a special type of stem cell that differentiates into different types of cells as it grows outward. The one that grows towards the surface will become the roots, while the other will become the roots. A layer of cells develops around the meristem in the roots, producing the root cap.

As the roots travel through the soil, this layer of cells sloughs off and is replaced by the meristem. Cell differentiation takes place in a different direction on the inside of the meristem. The cells here are directed to form vascular tissue and supporting cells by the hormones and environment.

They will ultimately transport water and nutrients to the plant’s apex. The meristem appears to function similarly on the surface. It generates both inside and exterior cells as it splits vertically. The inward cells undergo a similar differentiation to the roots, resulting in increased vascular tissue.

Cell differentiation into stems and leaves occurs on the exterior of the cells. These are analogous to the many organs of animals, and they differ from the beginning cells in the same way as animal cells differ from human cells.

Pick up an acorn and compare it to the huge tree it will grow into if you’re still not persuaded. It’s not just a lot smaller, but it also has a lot of various cell kinds in it. The process of cell differentiation can account for this.

Cell Differentiation Process

Transcription factors are an important part of the cell differentiation process. These hormones and substances control the processes that take place around DNA, regulating what gets transcribed and what doesn’t. The body and other cells in proximity determine the factors present in cells from birth to death.

The pancreas or thyroid, for example, may secrete a hormone that stimulates cellular growth. This transcription factor has a direct effect on the proteins that transcribe DNA, converting it into functional proteins and more cells. When cells begin to press together, however, they will also indicate to one another that there is no more space.

As a result, the process of cell differentiation has a wide range of inputs and outputs. This intricate technique is still being researched. Beginning with a full grasp of the worm C. elegans, scientists have made significant progress in comprehending cell differentiation.

As an adult female, this small worm-like organism contains 959 cells. They are quite straightforward to trace from the zygote to the adult due to their modest quantity. Scientists have begun to unravel some of the complicated and epigenetic factors at work in cell differentiation by tracing their cell lineage. To put it another way, it’s not only about how much DNA a cell contains, but also about where and how that DNA is expressed.

Cell Differentiation Citations
  • IL-21 and T Cell Differentiation: Consider the Context. Trends Immunol . 2016 Aug;37(8):557-568.
  • Microgravity directs stem cell differentiation. Histol Histopathol . 2017 Feb;32(2):99-106.
  • Epithelial-mesenchymal transition (EMT): A biological process in the development, stem cell differentiation, and tumorigenesis. J Cell Physiol . 2017 Dec;232(12):3261-3272.
  • Mechanisms of ATII-to-ATI Cell Differentiation during Lung Regeneration. Int J Mol Sci . 2020 Apr 30;21(9):3188.
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