Curious Kids: how do scientists read a person’s DNA

Africa Studio/Shutterstock

Mark Lorch, University of Hull

How do scientists read a person’s DNA? – James, aged 11, Thame, UK

DNA (which stands for deoxyribonucleic acid) contains all the information needed to make your body work займы по паспорту на карту. It is also surprisingly simple.

DNA is made from four chemical building blocks, which are arranged one after each other. This sequence is the instruction manual for your body. The building blocks are called adenine, thymine, guanine and cytosine, but we usually just call them A, T, G and C.

Curious Kids is a series by The Conversation that gives children the chance to have their questions about the world answered by experts. If you have a question you’d like an expert to answer, send it to and make sure you include the asker’s first name, age and town or city. We won’t be able to answer every question, but we’ll do our very best.

The information in your DNA is bunched into sections called genes. The genes are like sentences in an instruction manual.

Most genes control the everyday running of your body – how it grows hair, digests food or carries oxygen around. So 99.9% of your DNA is exactly the same as everyone else on the planet. The rest is what makes you unique. For example, if you have blue eyes, then a few of the letters in some genes will be different from someone with brown eyes.



As we grow, cells in our body divide. One cell becomes two. Every time this happens each of the new cells needs a full copy of DNA. DNA makes this easy, because it’s made of two strands. When a cell divides the strands split up, and a new copy is made of each one. Let’s look at how this is done.

The letter A on one strand is always opposite the letter T on the other, and G is always opposite C. So a short double strand of DNA might looks like this:

Illustration of matching pairs aligned vertically.
Illustration of a double strand of DNA.
Mark Lorch, Author provided

Let’s see what happens with one of the strands in a dividing cell. First a T is added opposite the first A to make:

DNA illustration
T pairs with A.
Mark Lorch, Author provided

Then an A gets attached to the T like this:

DNA illustration
A pairs with T.
Mark Lorch, Author provided

Next, C get placed opposite G:

DNA illustration
C pairs with G.
Mark Lorch, Author provided

And so on until a whole new double-stranded piece of DNA is made.

Reading DNA

We can use this knowledge of how DNA copies itself to read a person’s DNA.

To do this, a scientist puts the DNA into four tubes. Then they add all the machinery that the cell uses to copy DNA, and lots of extra As, Ts, Cs and Gs into each of the tubes.

Next, they add some DNA letters that have been changed so they can’t join with the next letter in the sequence. You can think of them like pieces of Lego, but with flat tops so you can’t add a brick on top of it. Let’s call these special DNA letters A*, T*, G* and C*.

Each of our four tubes gets some of the special DNA letters added to it: A*s in the first tube, T*s in the second, G*s in the third and C*s in the fourth.

Let’s imagine what happens with our DNA sequence in the tube containing A*.

First, just like before, T is added opposite the first A to make:

DNA illustration
T pairs to A.
Mark Lorch, Author provided

Next, though, an A* might get added to make this:

DNA illustration
An A* is added.
Mark Lorch, Author provided

If this happens, then the next letter can’t get attached to the A*. This is as long as this stretch of DNA gets.

But there’s plenty more DNA and letters in the tube and in some cases a normal A will have been added at that point, followed by two Cs to make this:

DNA illustration
Two Cs are added.
Mark Lorch, Author provided

Next there is a choice again. If an A* gets added the DNA sequence will look like this:

DNA illustration
Then an A*.
Mark Lorch, Author provided

Every time we reach the point where we need to add an A there is a chance an A* might get added, which stops the DNA getting any longer. So in the end these DNA strands get made:

DNA illustration
Different lengths of DNA.
Mark Lorch, Author provided

The scientist reading the DNA knows that each strand in this tube ends in an A*. She then counts how many pairs are in each strand of DNA. By doing this, she can work out that the 2nd, 5th and 7th letters are all As.

She then does exactly the same thing with the other tubes and works out that the 1st and 6th letters are Ts, the 3rd, 4th and 9th letters are Cs and the 7th is a G. By putting that all together, she can read the whole DNA sequence.

Reading DNA is useful because sometimes the letters in the genes aren’t quite right, like a misspelled word in a set of instructions. This might cause some of your cells to not work properly.

For example, just one wrong letter in one particular gene might mean someone is more likely to become diabetic, or get cancer when they are older. Reading someone’s DNA allows doctors to spot and treat these diseases before they become too bad.The Conversation

Mark Lorch, Professor of Science Communication and Chemistry, University of Hull

This article is republished from The Conversation under a Creative Commons license. Read the original article.


  1. Awesome and interesting article. Great things you’ve always shared with us. Thanks. Just continue composing this kind of post. please guys check our website

  2. Excellent way of explaining the concept of DNA reading and getting results. Most importantly, the author kept the best tune for kids who do not even know chemistry?

  3. Charlie Estrada says:

    This was an interesting article to read! The video called “DNA Sequencing with Lego”, was a very clever idea because of its simplicity. This is a great way to explain how scientists use this knowledge of how DNA copies itself to read a person’s DNA. I believe that even a young kid might be able to understand this topic after watching your video.

  4. Olivia Wallace says:

    This article is written in a way that explains how DNA works and I believe that a children could easily understand this concept. I enjoyed the video and visuals as I think that it is very helpful to have that connection to something that we can see.

  5. Bree Davidson says:

    This is a great article! It is very fascinating to learn about how proper DNA sequencing is so crucial in ensuring ones health. Such as an improper sequence could cause cancer or diabetes. Very well written and great graphics!

  6. Braeden Knutson says:

    This was a great article and video to go with it! I loved that building blocks of DNA were represented with literal Lego “blocks.” The visual representation made it very easy to understand base pairing and sequencing of DNA, so even a child can easily understand it. Thank you!

  7. This article was very well done! I enjoyed how it was written in a way that kids can understand. I think it definitely has the potential to teach younger readers about how DNA works and how scientists can read DNA. I found that having visual pictures made this easier to comprehend. The video was also a neat source of information.

  8. claire hiltner says:

    This was a really great article. I liked how you added the video “DNA sequencing with Legos” I think that was a good choice for the appropriate audience.

  9. The sequence of nucleic acids in polynucleotide chains ultimately contains the information for the hereditary and biochemical properties of terrestrial life, which has been an important reference for in vitro diagnostics (IVD). Therefore, the ability to measure or infer DNA sequences is imperative to biological research, especially in the IVD field. With our deeply-rooted IVD expertise and abundant experience, Creative Biolabs provides DNA sequencing services to accelerate the development of your IVD projects.

  10. Are you looking for container depot, docking services, container transport, warehousing, sea container repairs etc. A.S.H.C.CO is here to make sure you get the best container services across Europe.

  11. Kaufen Sie Oxycodone 20mg Der Inhalt von generischen Pillen und Markenmedikamenten ist genau gleich. Der einzige Unterschied ist der Name

  12. koop Oxycodon 20 mg De inhoud van generieke pillen en merkgeneesmiddelen is precies hetzelfde. Het enige verschil is de naam

  13. We offer only original high-quality counterfeit currency USD Euros Pounds banknotes in Europe and USA and also do face to face business of meet up for deals. Chat on WhatsApp with +39 351 169 5046

  14. Thanks for posting and sharing this amazing article with details. You can reach my blog at

  15. Very Nice Post, i learned a lot through it. Thank you for sharing this amazing article with details.
    I bookmarked your site for the further update. Here You can check my blog and get Cocaine for sale Online Cheap.

Leave a Reply

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