Escherichia coli and resistance to the viral replication cycle by lupafilotaxia

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· @lupafilotaxia ·
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Escherichia coli and resistance to the viral replication cycle
<center><img src="https://i.postimg.cc/fW8m0JPT/Escherichia-coli-y-resistencia-al-c-rculo-de-replicaci-n-viral.png"/></center>
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<div class="text-justify">In the light of modern science, prominent researchers from different countries, at a relatively advanced stage of the Covid-19 pandemic, begin to reveal scientific possibilities of a genetic nature previously obtained in the laboratory, namely how to rewrite the genome of microorganisms to generate life immune to viruses.</div>
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<div class="text-justify">Although naturally, there are no conditions genetically immune to viral infections, science in these months of pandemic has been working on producing proteins from microorganisms resistant to any viral attack, it may sound improbable, but the truth is that a group of scientists from the UK have created the first virus-resistant life form.</div>
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<center><img src="https://upload.wikimedia.org/wikipedia/commons/3/39/Bacillus_cereus_and_Escherichia_coli.jpg"/></center>
<blockquote><div class="text-justify">Fig. 2 <em>Escherichia coli</em> strains, in the image small pink clusters are observed in the background.. Public domain image, Author: <a href="https://commons.wikimedia.org/wiki/File:Bacillus_cereus_and_Escherichia_coli.jpg" rel="noopener" title="This link will take you away from steemit.com"> Bibliomaniac, 2009</a></div></blockquote></div>
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<h2>Synthesis of composite proteins</h2>
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<div class="text-justify">In the study developed by researchers from the United Kingdom, through <em>in vitro</em> fact-checking, it has been possible to demonstrate that it is possible to rewrite the genome of bacteria to produce proteins that do not exist in nature, and that these in turn produce favorable and genetically immune responses to viral infections.</div>
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<div class="text-justify">In this regard, scientists have succeeded in genetically manipulating biological strains of the bacterium <em>Escherichia coli,</em> whose genome has been literally rewritten to include changes that did not exist in nature until now, and thus were able to create a synthetic molecule capable of counteracting viral replication cycles.</div>
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<div class="text-justify">Counteracting the viral replication circle has been the objective of the pharmacological sector in all these months of pandemic, however, such an undertaking has been constantly truncated, hence, these results of having created a synthetic substance from <em>Escherichia coli</em> with immune reaction to viral infections, are undoubtedly the greatest advances in the search to curb the replication of the coronavirus on a global scale.</div>
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<center><img src="https://upload.wikimedia.org/wikipedia/commons/thumb/b/bb/Escherichia-coli-bacterium%281%29.tif/lossy-page1-600px-Escherichia-coli-bacterium%281%29.tif.jpg"/></center>
<blockquote><div class="text-justify">Fig. 3 Cross section of an <em>Escherichia coli</em> cell with poorly defined nucleoid level genome. Public domain image, Author: <a href="https://commons.wikimedia.org/wiki/File:Escherichia-coli-bacterium(1).tif" rel="noopener" title="This link will take you away from steemit.com"> David S. Goodsell, 2021</a></div></blockquote></div>
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<h3><center>CONTRIBUTIONS OF THIS PUBLICATION</center></h3>
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<li><div class="text-justify">Specifically, according to the results obtained, it is inferred that the changes made to the genome of bacterial strains of <em>Escherichia coli,</em> create conditions that act as a firewall against viruses, since they disable the functioning of several codons that viruses need to affect cell metabolism.</div></li>
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<h3><center>BIBLIOGRAPHICAL REFERENCES CONSULTED:</center></h3>
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<div class="text-justify"><strong>[1] Wesley R., Funke L., Torre D., Fredens J., Elliott T</strong> Sense codon reassignment enables viral resistance and encoded polymer synthesis. DOI: 10.1126/science.abg3029. <a href="https://science.sciencemag.org/content/372/6546/1057" rel="noopener" title="This link will take you away from steemit.com"> Article: Online Access </a></div>
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<div class="text-justify"><strong>[2] Liao Y., Lescar J., Tam J., Liu D</strong> Expression of SARS-coronavirus envelope protein in <em>Escherichia coli</em> cells alters membrane permeability. <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7092894/" rel="noopener" title="This link will take you away from steemit.com"> Article: Online Access </a></div>
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<p><center><h1>OBSERVATION</h1></center></p>
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<center><strong>✔</strong> The cover image was designed by the author: @lupafilotaxia, incorporating the public domain image background: <a href="https://commons.wikimedia.org/wiki/File:Escherichia_coli,_Endo_agar.png" rel="noopener" title="This link will take you away from steemit.com"> Lenka M, 2010</a></em></center></p>
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@sulilekan ·
Thanks for enlightenment @lupafilotaxia
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