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"The invention of graphical processing units (GPUs) has significantly improved the speed of long processes used in molecular dynamics (MD) to search for drug candidates to treat diseases, such as malaria. Previous work using a single GTX GPU showed considerable improvement compared to GPUs run in a cluster environment. In the current work, AMBER and dual GTX 780 and 970 GPUs were used to run an MD simulation on the Plasmodium falciparum enoyl-acyl carrier protein reductase enzyme; the results showed that performance was improved, particularly for molecules with a large number of atoms using single GPU."

"ABSTRACTOne of the processes requiring HPC environments is Molecular Dynamics ( MD ) . In tropical countries, the MD process is very important in the preparation of virtual screening experiments for anti-malaria search. Previous works on the virtual screening project for anti-malaria search conducted by WISDOM project uses grid infrastructure with 1,700 CPUs of various infrastructure provided in 15 countries [13]. In silico anti malaria compounds searching from Indonesian medical plants using virtual screening methods are urgently required. This can reduce the cost and time required compared to the direct searching or examining each compound by in vitro and in vivo which will spend a lot of time and expense . However, the use of thousands of processors is difficult for the researchers with limited resources in developing countries such as Indonesia. Our of previous studies using MD with GROMACS shows the improvement of the simulation time using Cluster. But that is not the case for some of our previous works with AMBER on Cluster where we did not obtain significant speed up. However, our previous works running GROMACS on GPUs provided significant speed up about 12 times faster than that run on Cluster. In this study , we build a GPU -based computing environment and have some MD simulation with AMBER. We used several computing environments such as cluster with 16 cores , GPU Geforce GTX 465 , GTX 470 , GTX 560 , GTX 680 , and GTX 780 . In addition to PfENR ( Plasmodium falciparum Enoyl acyl Carrier Protein Reductase ) enzyme , as benchmark we also conducted MD experiments on Myoglobin protein , Dihydrofolate reductase (DHFR) protein, and Ras - Raf protein . All experimental results showed that the slowest MD processes occurred on Cluster, followed in increasing order by GTX 560, GTX 465, GTX 470, GTX 680 and GTX 780. While the GPU speed up relative to cluster is about 24 , 26 , 32 , 24 , 77 and 101, respectively. "

"Malaria merupakan salah satu infeksi parasit yang menjadi permasalahan di dunia. Tidak adanya vaksin yang efektif dan strain Plasmodium yang resisten terhadap obat antimalaria menunjukkan pentingnya untuk adanya pengembangan agen kemoterapi baru. Metode yang saat ini sedang banyak dikembangkan adalah pencarian obat antimalaria dengan menggunakan penapisan in silico atau dikenal pula dengan nama virtual screening. Salah satu enzim yang berperan dalam perkembangan parasit malaria adalah Plasmodium falciparum Enoyl Acyl Carrier Protein Reductase (PfENR). Inhibisi pada enzim tersebut akan menyebabkan biosintesis lemak tipe II pada parasit akan terhenti. Pada penelitian kali ini dilakukan penapisan in silico menggunakan perangkat lunak GOLD untuk mencari kandidat inhibitor PfENR dengan menggunakan ligan yang terdapat pada database Tanaman Obat di Indonesia. Pada perangkat lunak GOLD dilakukan penambatan molekuler antara ligan dengan makromolekul target yaitu PfENR. Target ini telah dioptimasi dengan penghilangan residu dan penambahan muatan. Ligan diharapkan dapat menjadi inhibitor PfENR. Berdasarkan hasil dari penapisan in silico ini terdapat 5 kandidat senyawa inhibitor yang diharapkan dapat dikembangkan sebagai obat antimalaria. Senyawa tersebut yaitu Kaempferol 3-rhamnosyl-(1-3)-rhamnosyl-(1-6)-glucoside, Cyanidin 3,5-di-(6-malonylglucoside), 8-Hydroxyapigenin 8-(2'',4''-disulfatoglucuronide), Epigallocatechin 3,5,-di-O-gallate, dan Quercetin 3,4'-dimethyl ether 7-alpha-L-Arabinofuranosyl-(1-6)-glucoside dengan kisaran GoldScore dari 80,6236 sampai 100,4109.

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Malaria is one of problematic infectious diseases worldwide. The absence of an effective vaccine and the spread of drug resistant strains of Plasmodium clearly indicate the necessity for the deveploment of new chemotherapeutic agents. Recent method being developed is searching a new drug of antimalarial using in silico screening, or also known as virtual screening. One of enzyme target that important for growth of the malaria parasite is Plasmodium falciparum Enoyl Acyl Carrier Protein Reductase (PfENR). Inhibition of this enzyme cause the fatty acid biosynthesis type II will be terminated. In this research, in silico screening was performed using GOLD software to find inhibitor candidates of PfENR by using ligands from the database of Medicinal Plants in Indonesia. On the GOLD software moleculer docking experiments were performed between ligands and macromolecule target PfENR. This target that has been optimized with residue removal and charges addition. Ligand is expected to be the PfENR inhibitors. Based on the results obtained from the in silico screening there were 5 inhibitor candidates which expected to be developed as an antimalarials. These compounds were Kaempferol 3-rhamnosyl-(1-3)-rhamnosyl-(1-6)-glucoside, Cyanidin 3,5-di-(6-malonylglucoside), 8-Hydroxyapigenin 8-(2'',4''-disulfatoglucuronide), Epigallocatechin 3,5,-di-O-gallate, and Quercetin 3,4'-dimethyl ether 7-alpha-L-Arabinofuranosyl-(1-6)-glucoside with the GoldScore ranged from 80.6236 to 100.4109."

"Sejalan dengan semakin tingginya resistensi terhadap obat antimalaria dalam klinis, terdapat kebutuhan dilakukan pencarian senyawa-senyawa kimia yang berpotensi. Metode komputasi digunakan untuk membantu pencarian karena memiliki keunggulan seperti tidak banyak mengeluarkan biaya dan dapat dipercaya memprediksi afinitas ikatan ligan dengan target obat (protein). Tujuan penelitian adalah untuk mendapatkan senyawa analog triklosan dan senyawa herbal Indonesia yang berpotensi sebagai antimalaria. Analog triklosan dan beberapa senyawa basis data herbal Indonesia dihitung afinitas ikatannya dengan metode Molecular Mechanics Poisson-Blotzmann Surface Area (MM-PBSA) pada Plasmudium falciparum Enoyl Reductase(PfENR), dengan tiga titik variabel suhu 27oC, 37oC, dan 39oC. Didapatkan nilai energi bebas Gibbs (ΔG) pada analog triklosan enansiomer 1b -18,5009 kkal/mol suhu 37oC dan pada senyawa herbal spinasterol -31,3435 kkal/mol suhu 37oC dan limasin -24,9885 kkal/mol suhu 37oC. Dengan nilai energi bebas Gibbs tersebut menunjukkan bahwa senyawa tersebut memiliki potensi sebagai antimalaria.

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Keeping pace with emerging drug resistance in clinically important pathogens will be greatly aided by inexpensive yet reliable computational methods that predict the ligands binding affinities for drug targets. the aim of this study to obtain potention antimalaria from analogues triclosan compound and Indonesia herbal compound. Analogues triclosan and several compound from Indonesia herbal database form Indonesia be calculated with molecular mechanics Poisson-Boltzmann surface area (MM-PBSA) for the Plasmodium falciparum Enoyl Reductase (PfENR), at three point variable of temperature 27oC, 37oC, and 39oC. Obtained Gibbs free energy (ΔG) for analogues triclosan enansiomer 1b -18,5009 kkal/mol 37oC and for herbal compound spinasterole -31,3435 kkal/mol 37oC dan limacine -24,9885 kkal/mol 37oC. With that Gibbs free enrgy enansiomer 1a, spinasterole, and limacine shows that compound have potention as antimalaria."

"Malaria menjadi masalah kesehatan global utama karena banyaknya kejadian resistensi obat, sedangkan ketersediaan obat yang efektif juga terbatas, sehingga mendasari pentingnya pengembangan obat antimalaria yang baru. Berbagai penelitian perancangan obat yang mentarget berbagai enzim terus dilakukan, terutama enzim Plasmodium falciparum Enoyl Acyl Carrier Protein Reductase (PfENR). Penapisan virtual sebagai salah satu metode pendekatan in silico telah digunakan pada pencarian senyawa penuntun dari basis data senyawa ataupun dari basis data bahan alam sebagai inhibitor PfENR. Pada penelitian ini dilakukan penapisan virtual basis data senyawa tanaman obat di Indonesia pada PfENR. Penapisan dilakukan dengan menggunakan piranti lunak AutoDock dan AutoDock Vina. Pada AutoDock Vina dilakukan validasi terlebih dahulu sedangkan pada AutoDock tidak dilakukan karena telah divalidasi oleh peneliti sebelumnya. Hasil validasi AutoDock Vina diperoleh grid box terbaik yaitu 80x80x80. Berdasarkan hasil penapisan diperoleh 10 peringkat senyawa terbaik dari tiap metode dan 5 senyawa irisan dari kedua metode yaitu jacoumaric acid, beta sitosterol glucoside (lyoniside), limacine, leucadenone B, dan yuehchukene.

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Malaria is a major global public health problem. The alarming spread of its drug resistance and limited number of effective drugs available underline how important it is to discover new antimalarial drug. Various researches have been done to design drug targeting Plasmodium falciparum Enoyl Acyl Carrier Protein Reductase (PfENR) enzymes. Virtual screening as in silico approach has been used to find lead molecules from compound library or natural database as PfENR inhibitors. In this research, virtual screening of Indonesian herbal database was done to PfENR. Virtual screening was done using AutoDock and AutoDock Vina. AutoDock Vina was validated beforehand in order to obtain the best grid box while the virtual screening using AutoDock is not validated because it has been validated by previous researchers. Based on this research, the best grid box for AutoDock Vina is 80x80x80. Top ten ranked compounds were obtained for each method and five the same compound of the two methods that was jacoumaric acid, beta sitosterol glucoside (lyoniside), limacine, leucadenone B, and yuehchukene."

"ABSTRAKMalaria menjadi masalah kesehatan global utama dengan angka kejadian kemoresistensi yang tinggi, sedangkan ketersediaan obat yang efektif terbatas. Hal tersebut mendasari pentingnya pengembangan obat antimalaria baru. Pendekatan berbasis struktur digunakan untuk merancang analog triklosan dengan target enzim Plasmodium falciparum enoyl acyl carrier protein reductase (PfENR). Gugus fenol disubstitusi dengan gugus metoksi, serta gugus Cl di posisi 2? cincin B dimodifikasi menjadi gugus 2,3-dihidroksi-propionamida. Penambahan dua gugus hidroksi pada cincin B menggunakan metode dihidroksilasi asimetrik Sharpless dengan ligan kiral (DHQ)2PHAL dan (DHQD)2PHAL menghasilkan dua produk analog triklosan sebagai campuran enansiomer. Interaksi molekuler analog triklosan terhadap PfENR ditentukan dengan AutoDock. Campuran enansiomer yang dihasilkan dari ligan kiral (DHQ)2PHAL memiliki rotasi spesifik (+) 0,0833, sedangkan campuran enansiomer yang dihasilkan dari ligan kiral (DHQD)2PHAL memiliki rotasi spesifik (-) 0,0678. Nilai IC50 kedua analog triklosan ditentukan terhadap galur sensitif klorokuin, 3D7. Jumlah parasit dihitung secara mikrokopis melalui apusan darah tipis yang diwarnai Giemsa. Nilai IC50 ditentukan dengan membandingkan parasitemia senyawa uji dengan kontrol yang dianggap memiliki pertumbuhan 100%. Aktivitas antimalaria campuran enansiomer yang dihasilkan dengan (DHQ)2PHAL dan dengan (DHQD)2PHAL memperlihatkan aktivitas yang lebih poten dibandingkan triklosan (IC50 2,72 x 10-2 M), dengan IC50 berturut-turut 3,38 x 10-5 M dan 2,82 x 10-5 M.

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ABSTRACTMalaria is a major global public health problem that alarming spread of drug resistance and limited number of effective drugs. That reason underline how important it is to discover new antimalarial drug. A structure-based approach has been taken to develop substituted analogs of triclosan that target the key malarial enzyme Plasmodium falciparum enoyl acyl carrier protein reductase (PfENR). The phenol moiety was chemically substituted with methoxy group, and Cl group at posistion 2? in ring B also modified with 2,3-dihydroxy-propionamide group. Sharpless asymmetric dihydroxylation with chiral ligand (DHQ)2PHAL and (DHQD)2PHAL is used to introduce two hydroxyl groups into the ring B to give two analogs of triclosan as enantiomer mixture. The binding energies of two analogs for PfENR were determined using Autodock. The enantiomer mixture generated by chiral ligand (DHQ)2PHAL showed specific rotation of (+) 0,0833, while enantiomer mixture resulted from chiral ligand (DHQD)2PHAL have (-) 0,0678 of specific rotation. The IC50 of two analogs of triclosan were determined against Plasmodium falciparum chloroquin-sensitive strain, 3D7. The number of parasites on thin Giemsa stained smears was calculated microscopically. IC50 determined by comparing paracitemia parasite growth in the presence of compound with that of control without compound. The analog compounds, enantiomer mixture resulted by either (DHQ)2PHAL or (DHQD)2PHAL showed a higher antimalarial activity than triclosan (IC50 2,72 x 10-2 M), with IC50 3,38 x 10-5 M and 2,82 x 10-5 M, respectively."