Skip to content
Tagged COVID-19 Biotechnology SARS-CoV-2 Life Science cancer CORONAVIRUS pandemic
BioXone

BioXone

rethinking future

July 17, 2026
  • About
  • BiotechTodayNews
    • IndiaWeekly Biotech News of India
    • WorldWeekly Biotech News of The World
  • DNA-TalesArticles
    • BiotechnopediaInteresting articles written by BioXone members and associates.
    • Scientists’ CornerArticles from the pioneers of Biotechnology.
    • Cellular CommunicationInterview of greatest researchers’ in the field.
  • Myth-LysisFact Check
  • Signalling PathwayCareer related updates
    • ExaminationsExamination related articles.
    • Job and InternshipJobs and Internship related articles.
  • Courses
  • Contact

Most Viewed This Week

July 13, 2026July 13, 2026

Why Do We Age? The Biology Of Ageing Explained

1
October 17, 2023October 16, 2023

The Corrosion Prediction from the Corrosion Product Performance

2
October 1, 2023September 30, 2023

Nitrogen Resilience in Waterlogged Soybean plants

3
September 28, 2023September 28, 2023

Cell Senescence in Type II Diabetes: Therapeutic Potential

4
September 26, 2023September 25, 2023

Transgene-Free Canker-Resistant Citrus sinensis with Cas12/RNP

5
September 25, 2023September 25, 2023

AI Literacy in Early Childhood Education: Challenges and Opportunities

6

Search Field

Subscribe Now

  • Home
  • BiotechToday
  • Cells’ internal gauge to monitor own size

Importance of polymers against Coronavirus disease

World Blood Donor Day

Cells’ internal gauge to monitor own size
  • BiotechToday
  • World

Cells’ internal gauge to monitor own size

DNA tales June 13, 2021June 13, 2021

Varuni Ankolekar, Clinical Data Manager at Quartesian

Researchers have identified that cells have their own internal gauge to monitor their own size. The key protein behind this, or in other words, “cells’ internal gauge” is KRP4 protein, which is responsible for regulating cell size.

What is a Cell? What are the different components of a cell?

A cell is a basic structural and functional unit of all living organisms, except viruses which do not have a usual cellular organization. A cell comprises of three parts: the cell membrane, the nucleus (made up of nuclear membrane, Nucleoplasm, Chromatin, Nucleolus), and, amid the two, the Cytoplasm (Cytoplasmic organelles are mitochondrion, ribosomes, endoplasmic reticulum, Golgi apparatus, and lysosomes).

What is cell division? Why do cells divide?

Cell division is a process where a parent cell divides into daughter cells. Cell division occurs in prokaryotes as binary fission, budding, and in eukaryotes as mitosis (equational division) and meiosis (reductional division). Phases of eukaryotic cell division (Interphase, Prophase, Metaphase, Anaphase, Telophase, Cytokinesis).

There are many reasons why cells divide. Cells divide to substitute the old, dead, or damaged cells. Cell division is required for the growth of organisms. When organisms grow, it is mainly due to the division of cells to produce more and more cells. The human body encompasses trillions of cells. Nearly two trillion cell division is observed in humans every day.

Although the cells were discovered several years ago, the question of how these cells control their size was unknown until today.

Mystery of how cells regulate their size revealed:

Even though it was discovered that DNA could be used as a basis for cell size, it was unclear how the cells read and make use of this data. DNA is a blueprint that is used to collect the appropriate amount of protein and is diluted before the cell division. The cell size would depend on how much the cells have grown and how frequently they divide after reaching a certain cell size before division. The question is how the cells examine what their size is.

Robert Sablowski and the team decided to see what is behind the curtain by exploring the meristematic cells of plants that continuously grow and divide. The division of these cells is not only seen as unequal but also, seen to have managed to stay within range of sizes for a long duration.

Careful observations helped them understand that initially cells are of distinct sizes, but they turn out to be uniform when the cells are ready to replicate their DNA.

Let us now see, how it was found out what makes the cells to be of equal size and who is the cells’ internal gauge. KRP4 (KIP-related protein 4) is a protein that plays a key role in delaying the beginning of DNA replication. The team noticed that the same amount of KRP4 is seen in all the cells irrespective of cell size. Cells are consistent in sizes as others regardless of the size of the newborn and align themselves in a narrow size range. If the original size of the cell is too small, a higher concentration of KRP4 lags the beginning of DNA replication and if cells are too big, KRP4 is diluted to restrict further growth.

Now the question that arises is, what ensures that the same amount of KRP4 is received in all cells? It turned out that KRP4 travels on DNA during cell division, which gets copied identically in daughter cells. To ensure that the KRP4 is accumulated in the mother cell in correct proportion to the DNA content, any excess KRP4 that is unbound to the DNA is destroyed before cell division by another protein known as FBL17. The amount of KRP4 would be proportional to the DNA content of the cell. This was proven by Mathematical models and using gene-edited mutants with the diverging amount of these genetic components.

Researchers are further keen to understand how KRP4 associates and dissociates chromosomes during cell division if the mechanism is modulated in different cell types to generate different typical sizes. Thus, this is the cells’ internal gauge responsible for maintaining cell size.

Many organisms have been found to have KRP4 proteins which are also crucial to regulate cell size in human cells, hence could apply to animal and human biological kingdom. Future experiments will seek out the answers to these perennial questions about cells.

Also read: Importance of polymers against Coronavirus disease

Reference:

  1. D’ario M., Tavares R., Schiessl K., Desvoyes B., Gutierrez C., Howard M., Sablowski R. (2021). Cell size controlled in plants using DNA content as an internal scale. Science. Vol. 372, Issue 6547, pp. 1176-1181. DOI: http://10.1126/science.abb4348
  • Why Do We Age? The Biology Of Ageing Explained
  • The Corrosion Prediction from the Corrosion Product Performance
  • Nitrogen Resilience in Waterlogged Soybean plants
  • Cell Senescence in Type II Diabetes: Therapeutic Potential
  • Transgene-Free Canker-Resistant Citrus sinensis with Cas12/RNP

Share this:

  • Share on Facebook (Opens in new window) Facebook
  • Share on X (Opens in new window) X

Related

Tagged cell division Cell growth cell size control cells DNA FBL17 Genetics Human KRP4 meristamatic cells replication

Leave a Reply Cancel reply

Your email address will not be published. Required fields are marked *

Next Post
  • BiotechToday
  • World

World Blood Donor Day

BioTech Today June 14, 2021

Sagnik Nag, Amity University, Kolkata The history of blood donation goes back further than you would possibly expect. World Blood Donor Day (commonly abbreviated as WBDD) is celebrated on the birth anniversary of Karl Landsteiner, who was born on 14 June 1868. He was awarded the honor in 1930 for his discovery of the ABO […]

Related Post

  • World

How does saffron help in improving your health?

bioxone September 22, 2020September 22, 2020

-Binayak Das, Team bioXone The medicinal worth of saffron (C. sativus L) has been widely acknowledged in the preparation of herbal-based medicine, over many years. Modern-day science has successfully found out that some of its key components, namely crocin, crocetin, safranal, and picrocin, are responsible for imparting it, its curative nature. The spice has been […]

Share this:

  • Share on Facebook (Opens in new window) Facebook
  • Share on X (Opens in new window) X
  • BiotechToday
  • World

bNAbs in HIV research: Is a complete cure possible?

bioxone April 15, 2021April 15, 2021

Rohit Bhattacharjee, Amity University, Kolkata HIV research is at an inflection point, where various ways to deal to attack the infection are in or are moving toward clinical advancements. Ongoing development is giving scientist trust that a utilitarian HIV cure or even destruction of the infection is conceivable. Numerous papers throughout the long term asserted […]

Share this:

  • Share on Facebook (Opens in new window) Facebook
  • Share on X (Opens in new window) X
  • BiotechToday
  • World

Phototherapy to Protect Cancer cells

bioxone October 8, 2020October 8, 2020

Subhangi Das, Bankura Sammilani College With the phototherapic development which is also a type of light-induced treatment of cancer, several biomaterials are newly designed as photo-absorbing /sensitizing agents or effecting carriers to enhance the therapeutic efficacy and effective nature of phototherapy. Recently, the immune system responses produced by phototherapy. Which have been explored widely and […]

Share this:

  • Share on Facebook (Opens in new window) Facebook
  • Share on X (Opens in new window) X

Breaking News

Why Do We Age? The Biology Of Ageing Explained

The Corrosion Prediction from the Corrosion Product Performance

Nitrogen Resilience in Waterlogged Soybean plants

Cell Senescence in Type II Diabetes: Therapeutic Potential

Transgene-Free Canker-Resistant Citrus sinensis with Cas12/RNP

AI Literacy in Early Childhood Education: Challenges and Opportunities

Sustainable Methanol Vapor Sensor Made with Molecularly Imprinted Polymer

Terms and Conditions
Shipping and Delivery Policy
Cancellation and Refund Policy
Contact Us
Privacy Policy