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- <header>
- <h1>Reverse Engineering Source Code of the Biontech Pfizer Vaccine: Part 2</h1>
- </header>
- <nav>
- <p class="center">
- <a href="/david/" title="Aller à l’accueil"><svg class="icon icon-home">
- <use xlink:href="/static/david/icons2/symbol-defs-2021-12.svg#icon-home"></use>
- </svg> Accueil</a> •
- <a href="https://berthub.eu/articles/posts/part-2-reverse-engineering-source-code-of-the-biontech-pfizer-vaccine/" title="Lien vers le contenu original">Source originale</a>
- </p>
- </nav>
- <hr>
- <p>All BNT162b2 vaccine data on this page is sourced from this <a href="https://mednet-communities.net/inn/db/media/docs/11889.doc" target="_blank">World Health
- Organization
- document</a>.</p>
-
- <blockquote>
- <p>This is a living page, shared already so people can get going! But
- check back frequently for updates.</p>
- </blockquote>
-
- <p><em>Translation</em>:
- <a href="https://renaudguerin.net/posts/partie-2-explorons-le-code-source-du-vaccin-biontech-pfizer/" target="_blank">Français</a>
- / <a href="https://msakai.github.io/bnt162b2/part-2-reverse-engineering-source-code-of-the-biontech-pfizer-vaccine.ja/" target="_blank">æ¥æ¬èª</a></p>
-
- <p>In short: the vaccine mRNA has been optimized by the manufacturer by
- changing bits of RNA from (say) <code>UUU</code> to <code>UUC</code>, and people would like to
- understand the logic behind these changes. This challenge is quite close to what
- cryptologists and reverse engineering people encounter regularly. On this
- page, you’ll find all the details you need to get cracking to reverse
- engineer just HOW the vaccine has been optimized.</p>
-
- <p>I thought this would just be a fun puzzle, but I have just been informed that
- figuring out the optimization procedure & documenting it is tremendously
- important for researchers around the world, as this would help them design
- code for proteins and vaccines.</p>
-
- <p>So, if you want to help vaccine research, do read on!</p>
-
- <h2 id="the-leader-board">The leader board</h2>
-
- <p>Here are the current best entrants to the optimization algorithm (average of 20 runs):</p>
-
- <h2 id="biontech">BioNTech</h2>
-
- <p>We should all be very grateful that BioNTech has shared this data with us.
- And of course we should also be grateful to the many many researchers and
- lab workers that worked for decades to bring the state of the art to the
- point that such a vaccine could be developed. It is marvelous.</p>
-
- <p>Because it is so marvelous, I want to understand everything about the
- vaccine. I wrote a page <a href="https://berthub.eu/articles/posts/reverse-engineering-source-code-of-the-biontech-pfizer-vaccine/" target="_blank">Reverse Engineering the source code of the BioNTech/Pfizer SARS-CoV-2
- Vaccine</a>
- that describes in some detail what is in the mRNA of the vaccine. It helps
- to read this page before continuing, I promise you it will be interesting.</p>
-
- <p>The post left open some questions however, and this is where it gets
- fascinating.</p>
-
- <h2 id="the-codon-optimization">The codon optimization</h2>
-
- <p>The vaccine contains RNA code for a very <em>slightly</em> modified copy of the
- SARS-CoV-2 S protein.</p>
-
- <p>The RNA code of the vaccine itself however is <em>highly</em> modified from the viral original!
- This has been done by the manufacturer, based on their understanding of
- nature.</p>
-
- <p>And from what we understand, these modifications make the vaccine <strong>much
- much more</strong> effective. It would be a lot of fun to understand these
- modifications. It might for example explain why the Moderna vaccine needs
- 100 micrograms and the BioNTech vaccine only 30 micrograms.</p>
-
- <p>Here is the beginning of the S protein in both the virus and the BNT162b2
- vaccine RNA code. Exclamation marks denote differences.</p>
-
- <pre><code>Virus: AUG UUU GUU UUU CUU GUU UUA UUG CCA CUA GUC UCU AGU CAG UGU GUU
- Vaccine: AUG UUC GUG UUC CUG GUG CUG CUG CCU CUG GUG UCC AGC CAG UGU GUG
- ! ! ! ! ! ! ! ! ! ! ! ! !
- </code></pre>
-
- <p>RNA is a string (literally) of RNA characters, <code>A</code>, <code>C</code>, <code>G</code> and <code>U</code>. There is no
- physical framing on there, but it makes sense to analyse it in groups of
- three.</p>
-
- <p>Each group (called a codon) maps to an amino acid (denoted by a capital
- letter). A string of amino acids is a protein. Here is what that looks
- like:</p>
-
- <pre><code>Virus: AUG UUU GUU UUU CUU GUU UUA UUG CCA CUA GUC UCU AGU CAG UGU GUU
- M F V F L V L L P L V S S Q C V
- Vaccine: AUG UUC GUG UUC CUG GUG CUG CUG CCU CUG GUG UCC AGC CAG UGU GUG
- ! ! ! ! ! ! ! ! ! ! ! ! !
- </code></pre>
-
- <p>Here we can see that while the codons are different, the amino acid version
- is the same. There are 4*4*4 codons but only 20 amino acids. This means you
- can typically change every codon into one of two others, and still code for
- the same amino acid.</p>
-
- <p>So in the second codon, <code>UUU</code> was changed to <code>UUC</code>. This is a net addition
- of one ‘C’ to the vaccine. The third codon changed from <code>GUU</code> to <code>GUG</code>, which is
- a net addition of one <code>G</code>.</p>
-
- <p><strong>It is known that a higher fraction of <code>G</code> and <code>C</code> characters improves the
- efficiency of an mRNA vaccine</strong>.</p>
-
- <p>Now, if that was all there was to it, this could be the end of this page.
- “The algorithm is change codons so we get more G and C in there”. But then
- we meet the 9th codon which changes <code>CCA</code> to <code>CCU</code>.</p>
-
- <p>Throughout the ~4000 characters of the vaccine, this happens many times.</p>
-
- <h2 id="our-challenge">Our challenge</h2>
-
- <p>The goal is: find an algorithm that modifies the ‘wild type’ RNA code into
- the BNT162b2 one. Because everyone would like to understand how to turn
- viral RNA into an effective vaccine. The algorithm does not need to
- reproduce the <em>exact</em> RNA code of course, but it would be super nice if it
- came up with something very similar, while also being brief.</p>
-
- <p>To help you, I have provided the data in a number of forms, as described on
- <a href="https://github.com/berthubert/bnt162b2" target="_blank">the GitHub page</a>.</p>
-
- <blockquote>
- <p>Note that in these files the <code>U</code> mentioned above appears as a <code>T</code>. <code>U</code> and
- <code>T</code> are the RNA and DNA manifestations of the same information.</p>
- </blockquote>
-
- <p>The easiest place to start might be the
- ‘<a href="https://github.com/berthubert/bnt162b2/blob/master/side-by-side.csv" target="_blank">side-by-side.csv</a>‘
- file. This lists the original and modified version of each codon, side by
- side:</p>
-
- <pre><code>abspos,codonOrig,codonVaccine
- 0,ATG,ATG
- 3,TTT,TTC
- 6,GTT,GTG
- ...
- 3813,TAC,TAC
- 3816,ACA,ACA
- 3819,TAA,TGA
- </code></pre>
-
- <p>There is also an equivalency table that shows wich codons can be
- interchanged without changing the amino acid output. Please find this in
- <a href="https://github.com/berthubert/bnt162b2/blob/master/codon-table-grouped.csv" target="_blank">codon-table-grouped.csv</a>.
- There is also a visual version
- <a href="https://en.wikipedia.org/wiki/DNA_and_RNA_codon_tables#Standard_DNA_codon_table" target="_blank">here</a>.</p>
-
- <h2 id="a-sample-algorithm">A sample algorithm</h2>
-
- <p>On the <a href="https://github.com/berthubert/bnt162b2" target="_blank">GitHub repository</a> you can
- find
- <a href="https://github.com/berthubert/bnt162b2/blob/master/3rd-gc.go" target="_blank">3rd-gc.go</a>
- (and
- <a href="https://github.com/berthubert/bnt162b2/blob/master/3rd-gc.py" target="_blank">3rd-gc.py</a>).</p>
-
- <p>These implement a simple strategy that works like this:</p>
-
- <ul>
- <li>If a virus codon already ended on G or C, copy it to the vaccine mRNA</li>
- <li>If not, replace last nucleotide in codon by a G, see if the amino acid
- still matches, if so, copy to the vaccine mRNA</li>
- <li>Try the same with a C</li>
- <li>Otherwise copy as is</li>
- </ul>
-
- <p>Or in <code>golang</code>:</p>
-
- <pre><code>// base case, don't do anything
- our = vir
-
- // don't do anything if codon ends on G or C already
- if(vir[2] == 'G' || vir[2] =='C') {
- fmt.Printf("Codon ended on G or C already, not doing anything.")
- } else {
- prop = vir[:2]+"G"
- fmt.Printf("Attempting G substitution, new candidate '%s'. ", prop)
- if(c2s[vir] == c2s[prop]) {
- fmt.Printf("Amino acid still the same, done!")
- our = prop
- } else {
- fmt.Printf("Oops, amino acid changed. Trying C, new candidate '%s'. ", prop)
- prop = vir[:2]+"C"
- if(c2s[vir] == c2s[prop]) {
- fmt.Printf("Amino acid still the same, done!")
- our=prop
- }
-
- }
-
- }
- </code></pre>
-
- <p>This achieves a rather poor 53.1% match with the BioNTech RNA vaccine, but
- it is a start.</p>
-
- <p>When you design your algorithm, be sure to only base your choices on the
- virus RNA. Do not peek into the BioNTech RNA!</p>
-
- <p>If you have achieved a score beyond 53.1% please email a link to your code
- to bert@hubertnet.nl (or <a href="https://twitter.com/PowerDNS_Bert" target="_blank">@PowerDNS_Bert</a>
- and I’ll put it on the leader board at the top of this page!</p>
-
- <h2 id="things-that-will-help">Things that will help</h2>
-
- <p>As with every form of reverse engineering or cryptanalysis, it helps to
- understand what we are looking at.</p>
-
- <h2 id="gc-ratio">GC ratio</h2>
-
- <p>We know that one goal of the ‘codon optimization’ is to get more <code>C</code>s and
- <code>G</code>s into the vaccine version of the RNA. However, there is also a limit to
- that. In DNA, which is also used to manufacture the vaccine, <code>G</code> and <code>C</code>
- bind together strongly, to the point that if you put too many of these
- ‘nucleotides’ in there, the DNA will no longer be replicated efficiently.</p>
-
- <p>So some modifications may actually happen to manage <em>down</em> the GC percentage of a
- stretch of DNA if it was getting too high.</p>
-
- <p>I <a href="https://twitter.com/PowerDNS_Bert/status/1344036143961169920" target="_blank">tweeted about this</a> earlier.</p>
-
- <h2 id="codon-optimization">Codon optimization</h2>
-
- <p>Some codons are rare in human DNA, or in certain cells. It may be that some
- codons are replaced by other ones simply because they are more frequently
- used by some cells.</p>
-
- <p>I <a href="https://twitter.com/PowerDNS_Bert/status/1344400081802448897" target="_blank">tweeted about this</a>
- earlier.</p>
-
- <h2 id="rna-folding">RNA folding</h2>
-
- <p>We’ve been looking at codons up to here. The RNA itself however does not
- know about codons, there are no markers that say where a codon begins and
- ends. The first codon on a protein however is always ATG (or AUG in RNA).</p>
-
- <p>RNA curls up into a shape. This shape might help evade the immune system or
- it might improve translation into amino acids. This only depends on the
- sequence of RNA nucleotides and not on specific codons.</p>
-
- <p>You can submit RNA sequences to <a href="http://rna.tbi.univie.ac.at/cgi-bin/RNAWebSuite/RNAfold.cgi" target="_blank">this server of the Institute for
- Theoretical Chemistry at the University of
- Vienna</a> and it
- will fold RNA for you. This is a very advanced server that does meticulous
- calculations.</p>
-
- <p>This <a href="https://en.wikipedia.org/wiki/Nucleic_acid_structure_prediction" target="_blank">Wikipedia
- page</a>
- describes how this works.</p>
-
- <p>It may be that some optimizations improve folding.</p>
-
- <p>I am also told that this paper by Moderna (another mRNA vaccine
- manufacturer) may be relevant:
- <a href="https://www.pnas.org/content/116/48/24075" target="_blank">mRNA structure regulates protein expression through changes in functional
- half-life</a>.</p>
- </article>
-
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