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Main Authors: Chagneau, Anthony, Massaoudi, Yousra, Derbali, Imene, Yahiaoui, Linda
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.09927
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author Chagneau, Anthony
Massaoudi, Yousra
Derbali, Imene
Yahiaoui, Linda
author_facet Chagneau, Anthony
Massaoudi, Yousra
Derbali, Imene
Yahiaoui, Linda
contents Drug discovery has become a main challenge in our society, following the Covid-19 pandemic. Even pharmaceutical companies are already using computing to accelerate drug discovery. They are increasingly interested in Quantum Computing with a view to improve the speed of research and development process for new drugs. Here, the authors propose a quantum method to generate random sequences based on the occurrence in a protein database and another quantum process to compute a similarity rate between proteins. The aim is to find proteins that are closest to the generated protein and to have an ordering of these proteins. First, the authors will present the construction of a quantum generator of proteins who define a protein, called the test protein. The aim is to have a randomly defined amino-acids sequence according to a proteins database given. The authors will then describe two different methods to compute the similarity's rate between the test protein and each protein of the database and present results obtained for the test protein and for a case study, the elafin.
format Preprint
id arxiv_https___arxiv_org_abs_2402_09927
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum algorithm for bioinformatics to compute the similarity between proteins
Chagneau, Anthony
Massaoudi, Yousra
Derbali, Imene
Yahiaoui, Linda
Quantum Physics
Biomolecules
Drug discovery has become a main challenge in our society, following the Covid-19 pandemic. Even pharmaceutical companies are already using computing to accelerate drug discovery. They are increasingly interested in Quantum Computing with a view to improve the speed of research and development process for new drugs. Here, the authors propose a quantum method to generate random sequences based on the occurrence in a protein database and another quantum process to compute a similarity rate between proteins. The aim is to find proteins that are closest to the generated protein and to have an ordering of these proteins. First, the authors will present the construction of a quantum generator of proteins who define a protein, called the test protein. The aim is to have a randomly defined amino-acids sequence according to a proteins database given. The authors will then describe two different methods to compute the similarity's rate between the test protein and each protein of the database and present results obtained for the test protein and for a case study, the elafin.
title Quantum algorithm for bioinformatics to compute the similarity between proteins
topic Quantum Physics
Biomolecules
url https://arxiv.org/abs/2402.09927