Indonesian Journal of Pharmaceutical Science and Technology

In 2019, the Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) was discovered in Hubei Province, China. After one year, no drug therapy has been approved, necessitating the development of SARS-CoV-2 drugs. To screen new drug candidates from natural product databases, the in-silico method, a drug discovery process based on computer simulations, can be utilized. Flavonoid is one of the most common compounds found in nature. They are secondary metabolites compounds contains phenolic functional group that can be virtually screened by predicting antiviral activity, drug likeness prediction, pharmacokinetic prediction, toxicity prediction, and molecular docking simulation Virtual screening is used in molecular docking simulations to design drugs based on activity prediction, compound similarity with oral drugs based on similar physical properties, pharmacokinetic profiles that include absorption and distribution, toxicity, and interactions of compounds with targets. The main protease used by target receptors is an enzyme that is important in determining SARS-CoV-2 survival. The structure of SARS-CoV-2 main protease code ID PDB 5RL4, 5R7Y and 7BUY is used in molecular docking simulation. The results of virtual screening of 80 flavonoid compounds showed that there are two most potential compounds, namely naringin and rutin that have lower ∆G values than the three native ligands, predictions of toxicity and good activity and a fairly good distribution profile.

Susilo A, Rumende CM, Pitoyo CW, Santoso WD, Yulianti M, Sinto R, et al. Coronavirus disease 2019 : Tinjauan literatur terkini. J Penyakit Dalam Indones. 2020;7(1):45–67.

Cavasotto CN, Di JI. In silico drug repurposing for Covid-19 : Targeting SARS- CoV-2 proteins through docking and consensus ranking. Mol Inform. 2020;2000115:1–9.

3. Karo MB. Perilaku hidup bersih dan sehat (PHBS) strategi pencegahan penyebaran virus Covid-19. Pap Present Pros Semin Nas Hardik. 2012;1–4.

Hardy FR, Program S, Masyarakat K, Kesehatan FI. Herd immunity tantangan new normal era pandemi Covid-19. J Ilm Kesehat Masy. 2020;12:55.

Laksono S, Setianto B, Surya SP. Angiotensin converting enzyme 2 (ACE2), Covid-19 and cardiac injury : What cardiologist should know. J Med Sci. 2020;52(3):105–10.

Purwaniati. Studi docking molekul aktivitas obat Covid-19 dari derivat N- (2-phenylethyl) methanesulfonamide sebagai inhibitor main protease. Ad- Dawaa’ J Pharm Sci. 2020;3(1):1–11.

Zakaryan H, Arabyan E, Oo A, Zandi

K. Flavonoids : promising natural compounds against viral infections. Arch Virol. 2017;162(9):2539–51.

Khoirunnisa I, Sumiwi SA, Farmasi F, Padjadjaran U, Farmakologi A. Review artikel: Peran flavonoid pada berbagai aktivitas farmakologi. Farmaka. 2019;17(2):131–42.

Fakih TM. Dermaseptin-based antiviral peptides to prevent Covid-19 through in silico molecular docking studies against SARS-CoV-2 spike Protein. Pharm Sci Res. 2020;7(Special Issue on COVID-19):65–70.

Sharma N, Sharma M, Shakeel E, Jamal QMS, Kamal MA, Sayeed U, et al. Molecular interaction and computational analytical studies of pinocembrin for its antiangiogenic potential targeting VEGFR-2: A persuader of metastasis. Med Chem (Los Angeles). 2018;14(6):626–40.

Chen X, Li H, Tian L, Li Q, Luo J, Zhang

Y. Analysis of the Physicochemical Properties of Acaricides Based on Lipinski’s Rule of Five. J Comput Biol. 2020;27(9):1397–406.

Yuliana A, Fitriaji S P H, Siti Mukhaufillah K, Rahmawati Rizkuloh L. In Silico Study on Testing Antidiabetic Compounds Candidate from Azaphilone Monascus sp. Microbiol Indones. 2020;14(2):52–65.

Nursamsiar, Toding AT, Awaluddin

A. Studi in silico senyawa turunan analog kalkon dan pirimidin sebagai antiinflamasi: Prediksi absorpsi, distribusi, dan toksisitas. Pharmacy. 2016;13(01):92–100.

Wang Q, He J, Wu D, Wang J, Yan J, Li

H. Interaction of α-cyperone with human serum albumin: Determination of the binding site by using discovery studio and via spectroscopic methods. J Lumin. 2015;164:81–5.

Pagadala NS, Syed K, Tuszynski J. Software for molecular docking: a review. Biophys Rev [Internet]. 2017;9(2):91–

Available from: http://dx.doi. org/10.1007/s12551-016-0247-1

Bitencourt-Ferreira G, de Azevedo WF. Docking with SwissDock. Vol. 2053, Methods in Molecular Biology. 2019. 189–202 p.

Lagunin A, Stepanchikova A, Filimonov D, Poroikov V. PASS: Prediction of activity spectra for biologically active substances. Bioinformatics. 2000;16(8):747–8.

Rashid M. Design, synthesis and ADMET prediction of bis-benzimidazole as anticancer agent. Bioorg Chem [Internet]. 2020;96(October 2019):103576. Available from: https://doi.org/10.1016/j. bioorg.2020.103576

Pratiwi D, Insanu M, Damayanti S. Studi in silico senyawa antioksidan alami golongan steroid pada reseptor sistem reproduksi. Indones Nat Res Pharm J. 2016;1(1):22–35.

Ruswanto R, Mardhiah M, Mardianingrum R, Novitriani K. Sintesis Dan Studi in Silico Senyawa 3-Nitro-N’-[(Pyridin-4- Yl) Carbonyl]Benzohydrazide Sebagai Kandidat Antituberkulosis. Chim Nat Acta. 2015;3(2).

Fearon, D., Owen, C.D., Douangamath, A., Lukacik, P., Powell, A.J., Strain- Damerell, C.M., Zaidman, D., Krojer, T., Gehrtz, P., Wild, C., Aimon, A., Brandao- Neto, J., Carbery, A., Dunnett, L., Gorie- Stone, T.J., Skyner, R., London, N., Walsh, M.A., von De F. 5RL4 [Internet]. https://www.rscb.org/. 2020 [cited 2021 Jan 7]. Available from: https://www.rcsb. org/structure/5RL4

Fearon, D., Powell, A.J., Douangamath, A., Owen, C.D., Wild, C., Krojer, T., Lukacik, P., Strain-Damerell, C.M., Walsh, M.A., von Delft F. 5R7Y [Internet]. https://www.rscb.org/. 2020 [cited 2021 Jan 7]. Available from: https://www.rcsb. org/structure/5R7Y

Zhao, Y., Zhang, B., Jin, Z., Liu, X., Yang, H., Rao Z. 7BUY [Internet]. https://www.rscb.org/. 2020 [cited 2021 Jan 7]. Available from: https://www.rcsb.org/ structure/7BUY

Lohning AE, Levonis SM, Williams- Noonan B, Schweiker SS. A Practical Guide to Molecular Docking and Homology Modelling for Medicinal Chemists. Curr Top Med Chem. 2017;17(18).

Syahputra G, Ambarsari L, Sumaryada

T. Simulasi Docking Kurkumin Enol, Bismetoksi kurkumin dan Analognya sebagaiInhibitorEnzim12-Lipoksigenase.