Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies
Malaria is a parasitic infection caused by protozoan parasites from the genus Plasmodium. Over the years, various concerns have arisen regarding the efficacy in treating malaria caused by Plasmodium falciparum, which was reported to be caused by mutations in one of the parasite’s proteins, known...
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my.iium.irep.1021742022-12-29T03:16:50Z http://irep.iium.edu.my/102174/ Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies Azman, Aisya Nazura Muhd Fahmirauf, Safwan Fathi Ahmad Fuad, Fazia Adyani Radin Hisam, Raden Shamilah Md. Yusuf, Noor Azian Q Science (General) QD Chemistry Malaria is a parasitic infection caused by protozoan parasites from the genus Plasmodium. Over the years, various concerns have arisen regarding the efficacy in treating malaria caused by Plasmodium falciparum, which was reported to be caused by mutations in one of the parasite’s proteins, known as the Kelch 13 (K13). This study aims to generate the model structures of P.falciparum K13 protein mutants and to evaluate the binding affinities and interactions between these proteins and artemisinin drug, which is the drug used for the treatment of malaria. To date, the interactions between the protein mutants and artemisinin drug have not been computationally elucidated. In this study, four different types of mutant proteins were analysed, which are V494I, L598G, S600C and N537I and the results were compared with the wild-type K13 protein. Homology models of these proteins were created using the wild-type K13 (PDB ID:4YY8), with high percentage of sequence identity with the mutants. Most models with -2 and 2 have good Rama-Z scores, hence it can be deduced that the four mutants V494I (-1.21 ± 0.42), L598G (-1.19 ± 0.41), S600C (- 0.93 ± 0.43), N537I (-1.16 ± 0.43) and the wild-type (-1.34 ± 0.45) have acceptable Rama-Z scores. Molecular docking between artemisinin and the generated models of K13 proteins revealed that all protein mutants have higher binding energy; V494I (-6.79 kcal/mol), L598G (-9.26 kcal/mol), S600C (-6.17 kcal/mol) and N537I (-6.96 kcal/mol), compared to the wildtype (-9.65 kcal/mol). The results showed that all four distinct mutant proteins have less stable complex formation, which indicate that the mutant proteins have higher resistance towards artemisinin due to the higher binding energy compared to the K13 wild-type protein. However, all mutations have a higher number of protein-ligand hydrophobic interactions and protein-ligand hydrogen bonds than the wild-type protein, which requires further analysis to understand the binding interactions. The predicted structural information with regards to binding interactions between the K13 mutant proteins and artemisinin obtained from this study has paved the path toward understanding how mutants may cause parasites’ resistance towards artemisinin drugs Semarak Ilmu Publishing 2022-11-30 Article PeerReviewed application/pdf en http://irep.iium.edu.my/102174/1/102174_Evaluating%20the%20binding%20interactions.pdf Azman, Aisya Nazura and Muhd Fahmirauf, Safwan Fathi and Ahmad Fuad, Fazia Adyani and Radin Hisam, Raden Shamilah and Md. Yusuf, Noor Azian (2022) Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies. Journal of Advanced Research in Applied Sciences and Engineering Technology, 28 (3). pp. 272-286. ISSN 2462-1943 https://semarakilmu.com.my/journals/index.php/applied_sciences_eng_tech/article/view/959 10.37934/araset.28.3.272286 |
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Q Science (General) QD Chemistry Azman, Aisya Nazura Muhd Fahmirauf, Safwan Fathi Ahmad Fuad, Fazia Adyani Radin Hisam, Raden Shamilah Md. Yusuf, Noor Azian Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| description |
Malaria is a parasitic infection caused by protozoan parasites from the genus Plasmodium.
Over the years, various concerns have arisen regarding the efficacy in treating malaria
caused by Plasmodium falciparum, which was reported to be caused by mutations in one
of the parasite’s proteins, known as the Kelch 13 (K13). This study aims to generate the
model structures of P.falciparum K13 protein mutants and to evaluate the binding affinities
and interactions between these proteins and artemisinin drug, which is the drug used for
the treatment of malaria. To date, the interactions between the protein mutants and
artemisinin drug have not been computationally elucidated. In this study, four different
types of mutant proteins were analysed, which are V494I, L598G, S600C and N537I and the
results were compared with the wild-type K13 protein. Homology models of these proteins
were created using the wild-type K13 (PDB ID:4YY8), with high percentage of sequence
identity with the mutants. Most models with -2 and 2 have good Rama-Z scores, hence it
can be deduced that the four mutants V494I (-1.21 ± 0.42), L598G (-1.19 ± 0.41), S600C (-
0.93 ± 0.43), N537I (-1.16 ± 0.43) and the wild-type (-1.34 ± 0.45) have acceptable Rama-Z
scores. Molecular docking between artemisinin and the generated models of K13 proteins
revealed that all protein mutants have higher binding energy; V494I (-6.79 kcal/mol), L598G
(-9.26 kcal/mol), S600C (-6.17 kcal/mol) and N537I (-6.96 kcal/mol), compared to the wildtype (-9.65 kcal/mol). The results showed that all four distinct mutant proteins have less
stable complex formation, which indicate that the mutant proteins have higher resistance
towards artemisinin due to the higher binding energy compared to the K13 wild-type
protein. However, all mutations have a higher number of protein-ligand hydrophobic
interactions and protein-ligand hydrogen bonds than the wild-type protein, which requires
further analysis to understand the binding interactions. The predicted structural
information with regards to binding interactions between the K13 mutant proteins and
artemisinin obtained from this study has paved the path toward understanding how
mutants may cause parasites’ resistance towards artemisinin drugs |
| format |
Article |
| author |
Azman, Aisya Nazura Muhd Fahmirauf, Safwan Fathi Ahmad Fuad, Fazia Adyani Radin Hisam, Raden Shamilah Md. Yusuf, Noor Azian |
| author_facet |
Azman, Aisya Nazura Muhd Fahmirauf, Safwan Fathi Ahmad Fuad, Fazia Adyani Radin Hisam, Raden Shamilah Md. Yusuf, Noor Azian |
| author_sort |
Azman, Aisya Nazura |
| title |
Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| title_short |
Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| title_full |
Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| title_fullStr |
Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| title_full_unstemmed |
Evaluating the binding interactions between Artemisinin and Kelch 13 protein mutants via molecular modelling and docking studies |
| title_sort |
evaluating the binding interactions between artemisinin and kelch 13 protein mutants via molecular modelling and docking studies |
| publisher |
Semarak Ilmu Publishing |
| publishDate |
2022 |
| url |
http://irep.iium.edu.my/102174/1/102174_Evaluating%20the%20binding%20interactions.pdf http://irep.iium.edu.my/102174/ https://semarakilmu.com.my/journals/index.php/applied_sciences_eng_tech/article/view/959 |
| _version_ |
1753788216581816320 |