How staying in shape is vital for reproductive success

How staying in shape is vital for reproductive success
S. japonicus yeast cells, with nuclei shown in pink, which have been edited so that they cannot scale. The cells are shown dividing over time, starting at the top and after approximately four hours at the bottom. The cells on the left are in a narrow channel to restrict their width and are able to divide correctly, while those on the right in a wider channel cannot. Credit: Snezhka Oliferenko

Cells must keep their shape and proportions to successfully reproduce through cell division, finds new research from the Francis Crick Institute and King's College London.

The research, published in Nature Communications, reveals a fundamental biological basis for scaling, where maintain their proportions as they grow or shrink. This principle is seen throughout life, from through to complex organisms, but its biological origins have remained a mystery.

By studying yeast cells from the related S. japonicus and S. pombe species, the team discovered that scaling plays a vital role in cell division. To successfully reproduce through , fission yeast cells need to copy their DNA and then split down the middle to create two new cells. The new study reveals that staying in the right shape is essential for cells to find their 'middle' where the split should occur.

Fission yeast cells are typically pill-shaped, and the tips send molecular signals which meet in the middle. The latest research found that if the cell is too round and the ends aren't far apart enough, the signals get mixed up and the cell can't tell where the middle is. When a rounded cell divides, it breaks apart off-centre, which can either tear the DNA and kill the cell or leave two copies of DNA in one cell and none in the other.

"If a division leaves two copies of DNA in one cell, the one without DNA will die and the one with two copies is likely to have problems when it next divides, which in human cells can lead to cancer," explains Professor Snezhka Oliferenko, research group leader at the Crick and King's. "To avoid this, it's vital that the division happens in the right place. We found that a cell's shape determines where it will divide, highlighting the crucial function of scaling at the cellular level. This helps to answer the fundamental evolutionary question of why and how organisms would evolve the ability to scale when their size changes."

When are genetically edited or fed a restricted diet, they shrink to conserve nutrients when they divide.

"We found that S. japonicus relies on a gene called rga4 to regulate growth so the cell keeps its shape when it shrinks," says lead author Dr. Ying Gu, postdoc in Snezhka's lab. "The cells simply divided into thinner cells of the same shape, which were able to live and multiply as normal."

The team found that when they disabled the rga4 gene, cells lost their ability to scale so grew too 'fat' and divided off-centre. However, when these genetically-edited cells were grown in a narrow channel to keep them thin, they divided as normal.

"As long as the length-to-width aspect ratio is correct, S. japonicus can accurately divide in the middle and continue to thrive," says Snezhka. "It's a beautiful organism to study, as it allows us to test fundamental biological principles and get clear, elegant results. We can ask questions like 'What's the point in scaling?', 'Why does cell shape matter?' and many more. By studying the similarities and differences between S. japonicus and sister species like S. pombe, we can gain insights into processes that are fundamental to life itself."


Explore further

Molecular brake on human cell division prevents cancer

More information: Ying Gu et al, Cellular geometry scaling ensures robust division site positioning, Nature Communications (2019). DOI: 10.1038/s41467-018-08218-2
Journal information: Nature Communications

Citation: How staying in shape is vital for reproductive success (2019, January 21) retrieved 19 April 2019 from https://phys.org/news/2019-01-vital-reproductive-success.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
13 shares

Feedback to editors

User comments

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more