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Genetic signature boosts protein production during cell division

Date:
February 28, 2020
Source:
University of Basel
Summary:
A research team has uncovered a genetic signature that enables cells to adapt their protein production according to their state. The researchers report that this newly discovered mechanism plays a role in the regulation of protein production during cell division.
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A research team has uncovered a genetic signature that enables cells to adapt their protein production according to their state. The researchers of the University of Basel's Biozentrum report in Genome Biology that this newly discovered mechanism plays a role in the regulation of protein production during cell division.

The production of proteins is the most energy-consuming activity of cells. It needs to be tightly regulated, to ensure efficient use of cellular resources. Researchers led by Prof. Mihaela Zavolan at the Biozentrum of the University of Basel have now discovered how the genetic code is used to adjust the protein production depending on the cell growth and division. This mechanism may also be involved in uncontrolled cell division.

Several codons for one amino acid

The genetic code is like a language consisting solely of three letter words, known as 'codons'. Each codon stands for an amino acid, the building blocks of proteins. As there are 64 codons for the 20 amino acids, most amino acids are encoded by more than one codon.

The multiple codons that represent one and the same amino acid are not equally frequent in the genome. Some occur frequently while others are rare. "Previously it was assumed that rare codons generally reduce the rate of protein synthesis," says Zavolan. "Our findings, however, provide a more subtle picture. We could show that rare codons allow the production of specific proteins to be boosted during cell division."

Rare codons regulate protein synthesis

To synthesize a protein, the gene that encodes that protein must first be copied. This copy, called mRNA, is then decoded into a sequence of amino acids by specific molecules in the cell's protein factories. In proliferation-related mRNAs, amino acids tend to be encoded by rare codons, which leads to relatively inefficient protein synthesis when the cells are in resting state. This is because rare codons take longer to be 'read' due to the low availability of decoding molecules.

"The situation changes when the cell switches to division. In this case, more decoding molecules are available to 'read' the rare codons," explains Joao Guimaraes, the first author of the study. "The mRNAs enriched in such codons, which turn out to be important for cell proliferation, are more efficiently translated and thus, experience a boost in protein synthesis." In this way, rare codons help to control the production of a particular class of proteins and to adapt it to the needs of the cell.

Genetic signature for cell proliferation

"Our study challenges the current view that the rare codons are simply detrimental for protein production," says Guimaraes. "We have demonstrated that rare codons are involved in specifically boosting the production of proteins necessary for cell division." The findings on the genetic signature may have implications for understanding the dysregulation of protein synthesis during tumor development, which is caused by uncontrolled cell growth and proliferation.


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Materials provided by University of Basel. Note: Content may be edited for style and length.


Journal Reference:

  1. Joao C. Guimaraes, Nitish Mittal, Alexandra Gnann, Dominik Jedlinski, Andrea Riba, Katarzyna Buczak, Alexander Schmidt, Mihaela Zavolan. A rare codon-based translational program of cell proliferation. Genome Biology, 2020; 21 (1) DOI: 10.1186/s13059-020-1943-5

Cite This Page:

University of Basel. "Genetic signature boosts protein production during cell division." ScienceDaily. ScienceDaily, 28 February 2020. <www.sciencedaily.com/releases/2020/02/200228102234.htm>.
University of Basel. (2020, February 28). Genetic signature boosts protein production during cell division. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2020/02/200228102234.htm
University of Basel. "Genetic signature boosts protein production during cell division." ScienceDaily. www.sciencedaily.com/releases/2020/02/200228102234.htm (accessed November 20, 2024).

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