We are independent & ad-supported. We may earn a commission for purchases made through our links.
All The Science
Advertiser Disclosure
Our website is an independent, advertising-supported platform. We provide our content free of charge to our readers, and to keep it that way, we rely on revenue generated through advertisements and affiliate partnerships. This means that when you click on certain links on our site and make a purchase, we may earn a commission. Learn more.
How We Make Money
We sustain our operations through affiliate commissions and advertising. If you click on an affiliate link and make a purchase, we may receive a commission from the merchant at no additional cost to you. We also display advertisements on our website, which help generate revenue to support our work and keep our content free for readers. Our editorial team operates independently of our advertising and affiliate partnerships to ensure that our content remains unbiased and focused on providing you with the best information and recommendations based on thorough research and honest evaluations. To remain transparent, we’ve provided a list of our current affiliate partners here.
Biology

What is a Stop Codon?

Mary McMahon
By
Updated May 21, 2024
Our promise to you
All The Science is dedicated to creating trustworthy, high-quality content that always prioritizes transparency, integrity, and inclusivity above all else. Our ensure that our content creation and review process includes rigorous fact-checking, evidence-based, and continual updates to ensure accuracy and reliability.

Our Promise to you

Founded in 2002, our company has been a trusted resource for readers seeking informative and engaging content. Our dedication to quality remains unwavering—and will never change. We follow a strict editorial policy, ensuring that our content is authored by highly qualified professionals and edited by subject matter experts. This guarantees that everything we publish is objective, accurate, and trustworthy.

Over the years, we've refined our approach to cover a wide range of topics, providing readers with reliable and practical advice to enhance their knowledge and skills. That's why millions of readers turn to us each year. Join us in celebrating the joy of learning, guided by standards you can trust.

Editorial Standards

At All The Science, we are committed to creating content that you can trust. Our editorial process is designed to ensure that every piece of content we publish is accurate, reliable, and informative.

Our team of experienced writers and editors follows a strict set of guidelines to ensure the highest quality content. We conduct thorough research, fact-check all information, and rely on credible sources to back up our claims. Our content is reviewed by subject-matter experts to ensure accuracy and clarity.

We believe in transparency and maintain editorial independence from our advertisers. Our team does not receive direct compensation from advertisers, allowing us to create unbiased content that prioritizes your interests.

A stop codon is a nucleic acid triplet in messenger RNA (mRNA) which does not code for an amino acid, thereby stopping the production of a protein. Essentially, the stop codon tells the ribosomes executing the mRNA code that it's time to stop; one could think of it almost as a perforated line in a sheet of paper indicating “tear here.” Without a stop codon in place, proteins made from RNA would consist of endless chains of amino acids, because the ribosomes would not know when to stop.

Stop codons are also present in DNA, so that they carry over when DNA is transcribed into RNA. In DNA, the three stop codons are TAA, TAG, and TGA. These triplets are “nonsense” codons which do not code for anything, reducing the risk that a mistake will be made. When transcribed into RNA, the stop codons are UAA, UAG, and UGA.

The length of an amino acid chain in a protein can vary, which means that stop codons are found at varying intervals in coding DNA and RNA, the areas of the genetic code which contain information which needs to be executed to make proteins. Stop codons can be identified when DNA is sequenced, and can be used to identify the specific locations in the genetic code which correspond to particular proteins, and thereby to particular genetic information.

As with other areas of DNA, it is possible for a mutation to appear in a stop codon. The codon may be transcribed incorrectly, or nucleic acids in the codon can be swapped out, causing problems when the ribosomes go to translate the mRNA to build amino acid chains. In a single cell, this can result in a random mutation which causes the cell to die or malfunction. If errors occur in the stop codons in a germ cell, however, and that germ cell joins with one from another organism, the resulting organism will have a congenital mutation, and in some cases, the mutation may be so severe that the organism cannot live.

Geneticists can use their knowledge of stop codons to sort out the information in a chunk of DNA or RNA. By looking for stop codons, they can identify specific chains of amino acids and determine which proteins the genetic material is coding for. This information can be used to learn more about what it does, and what happens when it goes wrong. Finding a stop codon can be useful when studying DNA and RNA to learn more about a mutation or variation which has been identified.

All The Science is dedicated to providing accurate and trustworthy information. We carefully select reputable sources and employ a rigorous fact-checking process to maintain the highest standards. To learn more about our commitment to accuracy, read our editorial process.
Mary McMahon
By Mary McMahon

Ever since she began contributing to the site several years ago, Mary has embraced the exciting challenge of being a All The Science researcher and writer. Mary has a liberal arts degree from Goddard College and spends her free time reading, cooking, and exploring the great outdoors.

See our Editorial Process Share Feedback

Related Articles

Discussion Comments
By croydon — On Oct 09, 2012

@Ana1234 - Actually, mutations of the stop codons don't always mean that the creature with them cannot survive. In fact, that's how they discovered the stop codons. They observed that viruses with particular mutations would act a certain way and so they could isolate the virues that had those mutations and study them in order to find out which sequence of genes produced the mutation.

It's quite interesting sometimes to see the roundabout ways that different scientific knowledge was discovered. The stop codons list was originally named after different colors of earthy yellow, because the original one was named Amber after the guy who discovered it.

By Ana1234 — On Oct 08, 2012

@bythewell - Actually, genetic mutations like mistakes with the stop codons in DNA happen all the time. Most people don't realize it, but they estimate that a very high percentage of pregnancies end in miscarriage, they just happen so early that the woman doesn't even know she was pregnant. And those miscarriages often happen because of genetic mutations, which did not allow the baby to live. A mutation of the stop codon, for example, is almost never going to be helpful, as it makes quite a huge difference in the genes.

By bythewell — On Oct 07, 2012

It seems like there is so much that can go wrong with DNA it's a wonder anything ever goes right. The stop codons are so important and they can so easily go wrong. I guess DNA isn't as delicate and finely balanced as it seems when you study it, however, since it rarely does go wrong. If it did, there wouldn't be so much life all around us, as, without every stop codon in each animal and plant working the way it's supposed it, they wouldn't be here.

Mary McMahon
Mary McMahon

Ever since she began contributing to the site several years ago, Mary has embraced the exciting challenge of being a...

Learn more
All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.

All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.