Cancer, Quantum Computing and TP53 Tumor Suppressor Gene Mutations Prediction by Jean-claude Perez in Novel Approaches in Cancer Study
Mutations in the TP53 gene are encountered in about one in every two
cases of cancer. The locations and frequencies of these mutations are
well
known and listed. It is therefore on these mutations of TP53 that we
validate here a theoretical method of prediction of the mutagenic
regions of TP53.
This method uses the Master Code of Biology, revealing a coupling and
unification between the Genomics and Proteomics codes for any DNA
sequence
analyzed. The “score” of these couplings highlights the functional
regions of genes, proteins, chromosomes and genomes. Of the 393 codons
of TP53,
and for the 61 possible values of these codons authorized by the genetic
code (i.e., 393x61 genes simulated), we prioritize the corresponding
Master
Code scores. Codons with scores close to 1 correspond to conserved
regions whereas codons with scores close to 61 reveal highly mutagenic
regions.
Our method is then validated and correlated with the real mutations
observed experimentally on hundreds of cases. We then analyze the
potential of
this method in the context of future quantum computers.
https://crimsonpublishers.com/nacs/fulltext/NACS.000507.php
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