Prosiding Seminar Nasional dan Diseminasi Penelitian Dosen

Papain-like protease is a cysteine protease enzym that is effective in inhibitor the covid-19. The purpose of this study was to determine the interaction of antiviral compounds with the papain-like protease enzym in covid-19 with the best bond-free energy value among the antiviral test compounds including ritonavir, ribavirin, remdesivir, oseltamivir, lopinavir, chloroquine, hydroxychloroquine, favipiravir, umifenovir in the research method using AutodockTools, Lipinski testing, visualization using Discovery Studio Visualizer software and molecular dynamics simulations from the docking result of antiviral test compounds against enzym papain-like protease 3E9S the best free energy binding value of the antiviral compound was umifenovir with the lowest binding affinity value of -8.74 kcal/mol from the result of molecular dynamics, there is a match in amino acids and shows stability in the interaction of umifenovir compounds with the papain-like protease enzym umifenovir compounds can be used as anti-covid-19 drugs.

Andriani. (2018). Prediksi Senyawa Bioaktif

Dari Tanaman Sanrego (Lunasia

amara Blanco) Sebagai Inhibitor Enzim

Siklooksigenase-2 (COX-2) Melalui

Pendekatan Molecular Docking. Jurnal

Ilmiah Pena, 1, 6–11.

Arwansyah, Ambarsari, L., & Sumaryada, T. I.

(2019). Simulasi Docking Senyawa

Kurkumin DanAnalognya Sebagai

Inhibitor Enzim 12-Lipoksigenase.

Current Biochemistry, 1, 11–19.

Kurnia, S. N., & Ruswanto. (2019). Studi

Komputasi Senyawa 1,3-

bis(methylsulfinyl) benzene dengan

MetodeSimulasi Dinamika Molekuler

pada Aplikasi GROMACS 2019. 1–6.

Pratama, M. R. F. (2016). Studi Docking

Molekular Senyawa Turunan Kuinolin

Terhadap Reseptor Estrogen ? Jurnal

Surya Medika, 2(1), 1–7.

https://doi.org/10.33084/jsm.v2i1.215

Petushkova, A. I., & Zamyatnin, A. A. (2020).

Papain-like proteases as coronaviral

drug targets: Current inhibitors,

opportunities, and limitations.

Pharmaceuticals, 13(10), 1–17.

https://doi.org/10.3390/ph13100277

Rachmania, R. A. (2019). Validasi Protokol

Skrining Virtual Dan Analisis Interaksi

Inhibitor Antiproliferasi Sel Kanker

Berbasis Bahan Alam Terhadap

Reseptor Cyclin-Dependent Kinase 4

(Cdk 4). Media Farmasi, 16(1), 21–40.

https://doi.org/10.12928/mf.v16i1.1210

Ruswanto. (2015). Molecular Docking Empat

Turunan Isonicotinohydrazine Pada

Mycobacterium Tu berculosis EnoylAcyl Carrier Protein Reduktase (InhA).

Jurnal Kesehatan Bakti Tunas Husada,

(1), 135–141.

https://doi.org/10.36465/jkbth.v13i1.25

Ruswanto, R., Mardianingrum, R., Lestari, T.,

Nofianti, T., Tuslinah, L., & Nurmalik,

D. (2018). In silico study of the active

compounds in bitter melon (Momordica

charantia L) as antidiabetic medication.

(2), 177–194.

https://doi.org/10.12928/pharmaciana.v

i2.8993

Ruswanto, Wulandari, W. T., Rahayu, S. S.,

Mardaningrum, R., & Hidayati, N. D.

(2019). Studi In Silico dan Bioaktivitas

Senyawa Turunan N’-

Benzoylisonicotinohydrazine (4-methyl,

-chloro dan 3,5-dinitro) Pada

Mycobacterium Tuberculosis (H37RV)

Bakteri Gram Positif Serta Bakteri

Gram Negatif. Pharmacoscript, 2(2), 1–

Saputri, K. E., Fakhmi, N., Kusumaningtyas,

E., Priyatama, D., & Santoso, B.

(2019). Docking Molekular Potensi Anti

Diabetes Melitus Tipe 2 Turunan

Zerumbon Sebagai Inhibitor Aldosa

Reduktase Dengan Autodock-Vina.

Chimica et Natura Acta, 4(1), 16–20.

https://doi.org/10.24198/cna.v4.n1.104

Susanti, N. M. P. ., Saputra1, D. P. D.,

Hendrayati, P. L., Parahyangan, I. P.

D. N., & Swandari, I. A. D. G. (2018).

Molecular Docking Sianidin dan

Peonidin sebagai Antiinflamasi pada

Aterosklerosis Secara In Silico. Jurnal

Farmasi Udayana, 7(1), 28–33.

https://doi.org/10.24843/jfu.2018.v07.i0

p04

Wardaniati, I., & Azhari Herli, M. (2018). Studi

Molecular Docking Senyawa Golongan

Flavonol Sebagai Antibakteri. JOPS

(Journal Of Pharmacy and Science),

(2), 20–27.

https://doi.org/10.36341/jops.v1i2.489

Wu, D., Wu, T., Liu, Q., & Yang, Z. (2020).

International Journal of Infectious

Diseases. Journal of Infections, 94, 44–

https://doi.org/10.1016/j.ijid.2020.03.004