Application of Genetic Algorithm in Understanding Drug- Drug Interactions
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International Journal of Engineering Trends and Technology (IJETT) | 
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| © 2015 by IJETT Journal | ||
| Volume-30 Number-8 |
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| Year of Publication : 2015 | ||
| Authors : Sudha Ramachandra, Vinay Chavan |
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| DOI : 10.14445/22315381/IJETT-V30P276 |
Citation
Sudha Ramachandra, Vinay Chavan"Application of Genetic Algorithm in Understanding Drug- Drug Interactions", International Journal of Engineering Trends and Technology (IJETT), V30(8),405-408 December 2015. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Genetic algorithms (GA) are promising
search algorithms in virtual screening of drugdiscovery
process. A molecular docking tool
extensively used in the process of drug discovery uses
GA as search algorithm. CYP2B6 is an important
drug metabolizing enzyme in the super family of CYP
enzymes but less understood and polymorphic in
nature. Anticancer drugs Cyclophosphamide and
Thiotepa are both metabolized by CYP2B6. The
present work embodies the impact of Single
Nucleotide Polymorphism(SNP) of CYP2B6 enzymes
on drug-drug interactions of anti-cancer drugs
Cyclophosphamide and Thiotepa when both are
administered concurrently in terms of binding
energies by molecular docking using “ArgusLab” .
The outcome of the present work may find its
application in pharmacogenomics which holds a
promise in personalized medicine that drugs might
one day be tailor-made for individuals and adapted
to each person`s own genetic makeup.
References
[1] David E.Godberg , `Genetic algorithms`, Pearson Education
India, 2006.
[2] http://brainz.org/15-real-world-applications-geneticalgorithms/
[3] Ambreen Hafeez, Zafar Saied Saify, " Molecular Docking
Study on the Interaction of Riboflavin (Vitamin ) and
Cyanocobalamin (Vitamin ) Coenzymes", Journal of
Computational Medicine,2013
[4] Raquel Dias , Raquel Dias. `Molecular Docking Algorithms`
Current Drug Targets, 2008.
[5] B. Vijayakumar and P. Dheen Kumar,`MOLECULAR
DOCKING STUDIES – A REVIEW`, IJMCA, Vol 2,
Issue 2, 2012 .
[6] Ulrich M. Zanger, , Matthias Schwab, `Cytochrome P450
enzymes in drug metabolism: Regulation of gene expression,
enzyme activities, and impact of genetic variation`,
Pharmacology and Therapeutics,Volume 138, Issue 1 ,April
2013.
[7] Ravi Sachidanandam , David Weissman “A map of human
genome sequence variation containing 1.42 million single
nucleotide polymorphisms”,Nature,2000
[8] http://ghr.nlm.nih.gov/handbook/genomicresearch/snp
[9] https://www.broadinstitute.org/education/glossary/snp
[10] Sarah C. Preissner ,Michael F. Hoffmann ,Robert
Preissner,Mathias Dunkel, Andreas Gewiess, Saskia
Preissner ,` Polymorphic Cytochrome P450 Enzymes
(CYPs) and Their Role in Personalized Therapy`, PLOS,
December 10, 2013.
[11] Magnus Ingelman `Drug?Metabolising Enzymes: Genetic
Polymorphisms`,els, 15 November 2011.
[12] Andreas Luch,”Molecular, Clinical and Environmenatl
Toxicology”,Volume 3, Springer
[13] http://www.differencebetween.com/difference-betweenenzyme-
and-vs-protein
[14] https://pubchem.ncbi.nlm.nih.gov/compound/cyclophosph
amide
[15] http://www.snpedia.com/index.php/CYP2B6
[16] http://www.ncbi.nlm.nih.gov/projects/SNP/
[17] Huitema AD, Kerbusch T, Tibben MM, Rodenhuis S,
Beijnen JH.,„Reduction of cyclophosphamide bioactivation
by thioTEPA: critical sequence-dependency in high-dose
chemotherapy regimens?, Cancer Chemother
Pharmacol;2000
[18] http://swissmodel.expasy.org/
[19] Thien-An Nguyen, Marina Tychopoulos et.al., „
Improvement of Cyclophosphamide Activation by CYP2B6
Mutants: From in Silico to ex Vivo? , Molecular
Pharmacology, April 2008
[20] www.arguslab.com
Keywords
receptor, ligand, active site, molecular
docking, binding energy, polymorphism, virtual
screening.