What Is mRNA? Here’s A Crash Course On What It Does

The messenger molecule that’s been in every living cell for billions of years is the key ingredient in some COVID-19 vaccines.

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One surprising star of the coronavirus pandemic response has been the molecule called mRNA. It鈥檚 the COVID-19 vaccines. But mRNA itself is not a new invention from the lab. and is naturally found in every cell in your body. Scientists think , .

Here鈥檚 a crash course in just what mRNA is and the important job it does.

Meet The Genetic Middleman

You probably know about DNA. It鈥檚 the molecule that contains all of your genes spelled out in a four-letter code 鈥 A, C, G and T.

Messenger RNA carries genetic information from DNA in the highly protected nucleus out to the rest of the cell, where structures called ribosomes can build proteins according to the DNA blueprint. (ttsz/iStock via Getty Images Plus) 

DNA is found inside the cells of every living thing. It鈥檚 protected in a part of the cell called the nucleus. The genes are the details in the DNA blueprint for all the physical characteristics that make you uniquely you.

But the information from your genes has to get from the DNA in the nucleus out to the main part of the cell 鈥 the cytoplasm 鈥 where proteins are assembled. Cells rely on to carry out the many processes necessary for the body to function. That鈥檚 where messenger RNA, or mRNA for short, comes in.

into shortened messages that are instructions for making proteins. These messages 鈥 the mRNA 鈥 are transported out to the main part of the cell. Once the mRNA arrives, the from these instructions.

The double-stranded DNA sequence is transcribed into an mRNA code so the instructions can be translated into proteins. (Alkov/iStock via Getty Images Plus) 

The structure of RNA is similar to DNA but has some important differences. RNA is a single strand of code letters (nucleotides), while DNA is double-stranded. The RNA code contains a U instead of a T 鈥 uracil instead of thymine. Both RNA and DNA structures have a backbone made of sugar and phosphate molecules, but . DNA鈥檚 sugar contains one less oxygen atom and this difference is reflected in their names: DNA is the nickname for deoxyribonucleic acid, RNA is ribonucleic acid.

Identical copies of DNA reside in every single cell of an organism, from a lung cell to a muscle cell to a neuron. RNA is produced as needed in response to the dynamic cellular environment and the immediate needs of the body. It鈥檚 mRNA鈥檚 job to help fire up the cellular machinery to build the proteins, as encoded by the DNA, that are appropriate for that time and place.

The is the foundation for how the cell functions.

Programmed To Self-Destruct

As the intermediary messenger, mRNA is an important safety mechanism in the cell. It prevents invaders from hijacking the cellular machinery to produce foreign proteins because any RNA outside of the cell is instantaneously targeted for destruction by . When these enzymes recognize the structure and the U in the RNA code, they erase the message, protecting the cell from false instructions.

The mRNA also gives the cell a way to control the rate of protein production 鈥 turning the blueprints 鈥渙n鈥 or 鈥渙ff鈥 as needed. No cell wants to produce every protein described in your whole genome all at once.

Messenger RNA instructions are timed to self-destruct, like a disappearing text or snapchat message. Structural features of the mRNA 鈥 the U in the code, its single-stranded shape, ribose sugar and its specific sequence 鈥 ensure that the mRNA has . These features combine to enable the message to be 鈥渞ead,鈥 translated into proteins, and then quickly destroyed 鈥 within minutes for certain proteins that need to be tightly controlled, or up to a few hours for others.

Once the instructions vanish, protein production stops until the protein factories receive a new message.

Harnessing mRNA For Vaccination

All of mRNA鈥檚 characteristics made it of . The goal of a vaccine is to get your immune system to react to a harmless version or part of a germ so when you encounter the real thing you鈥檙e ready to fight it off. Researchers found a way to an mRNA message with the code for a portion of the spike protein on the SARS-CoV-2 virus鈥檚 surface.

Messenger RNA vaccines get the recipient鈥檚 body to produce a viral protein that then stimulates the desired immune response. (Trinset/iStock via Getty Images Plus) 

The to make just enough of the spike protein for a person鈥檚 immune system to generate antibodies that protect them if they are later exposed to the virus. The mRNA in the vaccine is 鈥 just as any other mRNA would be. The mRNA cannot get into the cell nucleus and it cannot affect a person鈥檚 DNA.

Although these are new vaccines, the was initially developed many years ago and . As a result, the vaccines have been . The success of these mRNA vaccines against COVID-19, in terms of safety and efficacy, predicts a bright that can be quickly tailored to new, emerging threats. Early-stage clinical trials using mRNA vaccines have already been conducted for . Certainly, creative scientists are already considering and developing therapies for other diseases or disorders that might benefit from an approach similar to that used for the vaccines against COVID-19.The Conversation

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

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