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"Jahe (Zingiber officinale) adalah tanaman obat yang terbukti memiliki banyak khasiat untuk kesehatan manusia. Dehidrozingeron (DZ) adalah salah satu senyawa minor di dalam ekstrak jahe yang diketahui memiliki aktivitas antioksidan yang baik. Isolasi DZ dari jahe diketahui tidak efisien sehingga penting untuk mengetahui metode sintesisnya yang efektif. Reaksi aldol silang antara vanillin dan aseton telah banyak digunakan, dan atas dasar itu maka seharusnya analog DZ pun dapat disintesis dari derivat benzaldehid yang sesuai. Dehidrozingeron (DZ-1), analog DZ-2 dan DZ-3 secara berurutan disintesis dari vanillin, 4-hidroksi benzaldehid dan benzaldehid. Produk dikarakterisasi dengan UV-Vis, FT-IR dan MS. Untuk mengetahui aktivitas antioksidan produk dilakukan uji dengan DPPH. Diketahui bahwa semua produk memiliki aktivitas antioksidan yang menurun dari DZ-1, DZ-2, dan DZ-3.

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Ginger (Zingiber officinale) is a well known and proven medicinal plant that has been used by humans since ancient times. Dehydrozingerone (DZ) is one of the minor components in the ginger extract that is known to having good antioxidant properties. However its isolation from ginger is deemed inefficient, so it’s necessary to find a facile way to synthesize it. Crossed aldol reaction between vanillin and acetone is known to yield DZ, and then it should be possible to synthesize its analogs through the similar pathway. Dehydrozingerone (DZ-1), analog DZ-2 and DZ-3 were synthesized from vanillin, 4-hydroxy benzaldehyde and benzaldehyde respectively. Products then were characterized by UV-Vis, FT-IR and MS. DPPH test was conducted to examine the products’ antioxidant activity. It was observed that all products exhibited antioxidant activity with DZ-1 being the strongest, followed by DZ-2 and DZ-3 respectively."

"Akar kucing (Acalypha indica Linn.) maupun jahe merah (Zingiber officinale Rosc.) dapat digunakan untuk mengatasi gejala inflamasi akut pada penyakit asam urat. Penelitian ini bertujuan untuk mengetahui efek antiinflamasi kombinasi ekstrak air akar tanaman akar kucing dan ekstrak etanol 70% rimpang jahe merah ditinjau dari penurunan volume udem telapak kaki tikus yang diinduksi karaginan. Penelitian ini menggunakan modifikasi metode Winter, dilakukan pada 28 tikus putih jantan galur Sprague Dawley yang dibagi menjadi 7 kelompok. Kelompok I sebagai kontrol negatif diberikan CMC 0,5%, kelompok II, III, dan IV diberikan kombinasi akar kucing dan jahe merah, kelompok V diberikan akar kucing dosis tunggal, kelompok VI diberikan jahe merah dosis tunggal dan kelompok VII sebagai kontrol positif diberikan natrium diklofenak. Bahan uji diberikan secara oral 1 jam sebelum diinduksi dengan 0,4 ml karaginan 2%. Pengukuran volume telapak kaki dilakukan setiap jam selama enam jam setelah induksi karaginan. Hasil penelitian menunjukkan bahwa kombinasi 5,4 g/200 g bb ekstrak akar kucing dan 28 mg/200 g bb ekstrak jahe merah memiliki persentase penghambatan udem terbesar, setara dengan natrium diklofenak dosis 27 mg/200 g bb tikus.

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Indian acalypha (Acalypha indica Linn.) and red ginger (Zingiber officinale Rosc.) can be used to overcome the symptom of acute inflammation in gout. The aim of this study was to determine the anti inflammatory effect of combination aqueous extract of indian acalypha roots and 70% ethanol extract of red ginger rhizome, viewed from the decrease paw edema volume of rats carrageenan induced. This study used Winter method that had modified at 28 Sprague Dawley male rats which had been divided into 7 groups. Group I as a negative control had been given with CMC 0.5%, group II, III, and IV had been given with combination of indian acalypha and red ginger, group V had been given a single dose of indian acalypha, group VI had been given a single dose of red ginger and group VII as a positive control had been given with sodium diclofenac. Each of them were given orally 1 h before carrageenan induced (0,4 ml 2% b/v). The paw volume was measured every hour for six hours after injection carrageenan. The results showed that the combination of aqueous extract of indian acalypha roots (5.4 g/200 g BW) and ethanol extract of red ginger rhizome (28 mg/200 g BW) have the largest percentage inhibition of paw edema and this effect was comparable to that standard drug, diclofenac sodium (27 mg/200 g BW)."

"Aktivitas antropogenik merupakan salah satu penyebab akumulasi logam berat tembaga (Cu) pada tanah. Kadar tembaga berlebih dapat menyebabkan toksisitas pada tanaman, salah satunya adalah tanaman jahe merah (Zingiber officinale var. Rubrum) yang banyak dimanfaatkan oleh masyarakat sebagai bahan baku obat. Penelitian ini dilakukan untuk mempelajari pengaruh pemberian logam berat tembaga pada pertumbuhan dan mengetahui profil senyawa metabolomik rimpang jahe merah di bawah paparan tembaga (CuCl2) dengan konsentrasi 0 ppm (kontrol), 50 ppm, 100 ppm, dan 150 ppm. Penelitian yang bersifat eksperimental ini dilakukan menggunakan Rancangan Acak Lengkap (RAL), menggunakan 4 perlakuan berbeda dengan 6 sampel pengulangan pada setiap perlakuan. Parameter pertumbuhan yang diukur adalah laju pertumbuhan, kadar air rimpang, gejala toksisitas yang dialami tanaman, dan profil metabolomik yang dianalisis menggunakan HPLC dan dilakukan pengolahan data dengan Principal Component Analysis dan Hierarchical Component Analysis. Hasil penelitian menunjukkan bahwa laju pertumbuhan dan gejala toksisitas pemberian logam tembaga mulai terlihat pada konsentrasi 100 ppm dan 150 ppm. Tanaman jahe merah mampu mentolerir hingga konsentrasi 50 ppm Cu dilihat dari pertumbuhan tanaman yang normal dan belum munculnya gejala toksisitas. Hasil pengolahan PCA dan HCA menunjukkan bahwa konsentrasi Cu 150 ppm memiliki profil metabolomik yang sangat berbeda dibanding perlakuan konsentrasi lainnya.

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Anthropogenic activity is one of the causes of copper accumulation in soil. Excess copper levels can cause toxicity to plants, one of which is red ginger (Zingiber officinale var. Rubrum) which is widely used by the community as a raw material for medicine. This research was conducted to study the effect of the administration of heavy metal copper on growth and to determine the red ginger profile of metabolites rhizomes under exposure of 0 ppm (control), 50 ppm, 100 ppm, and 150 ppm CuCl2. This experimental research was carried out using a completely randomized design (CRD), using 4 different treatments with 6 samples of repetition in each treatment. The growth parameters measured in this study were growth rate, rhizome water content, symptoms of toxicity experienced by plants, and metabolite profiles which were analysed using HPLC and processed with Principal Component Analysis (PCA) and Hierarchical Component Analysis (HCA). The results showed that the growth rate and toxicity symptoms caused by copper began to be seen at concentrations of 100 ppm and 150 ppm. Red ginger plant can be tolerate 50 ppm concentration of Cu seen from normal plant growth and no sign of toxicity. The results by the clustering pattern of PCA and HCA showed that concentration of 150 ppm Cu had a very different metabolite profiles compared to other concentrations."

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Aktivitas manusia dalam memenuhi kebutuhan hidupnya akan berdampak terhadap lingkungan, termasuk dampak negatif seperti turunnya kualitas lingkungan karena pencemaran timbal. Timbal (Pb) merupakan unsur yang tidak esensial bagi tanaman, namun dapat terserap dan meracuni tanaman. Telah dilakukan penelitian mengenai dampak timbal terhadap profil metabolomik tanaman jahe merah (Zingiber officinale var Rubrum.). Tujuan penelitian untuk mengetahui pengaruh timbal terhadap pertumbuhan dan profil metabolomik rimpang jahe merah. Perlakuan yang diberikan selama 1 bulan adalah PbCl2 50, 100, dan 150 ppm dengan Rancangan Acak Lengkap (RAL) 6 ulangan. Analisis profil metabolomik dilakukan dengan metode HPLC. Analisis statistik menggunakan Principle Component Analysis (PCA) dan Hierarchical Cluster Analysis (HCA). Hasil penelitian menunjukkan pemberian PbCl2 100 ppm dan 150 ppm pada tanaman jahe merah menghasilkan perbedaan yang signifikan terhadap pertumbuhan tinggi tanaman dan gejala toksisitas. Sedangkan perlakuan 50 ppm tidak memberikan pengaruh. Hal tersebut menunjukkan bahwa jahe merah memiliki toleransi terhadap PbCl2 hingga konsentrasi 50 ppm. Hasil PCA dan HCA berupa scatter plot dan dendrogram telah berhasil mengelompokkan tanaman kontrol dengan tanaman perlakuan 50 ppm ke dalam satu klaster, sementara perlakuan 100 ppm membentuk klaster dengan perlakuan 150 ppm. Pemberian PbCl2 lebih dari 100 ppm menghasilkan perbedaan terhadap profil metabolit jahe merah jika dibandingkan dengan kontrol.

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Human activities meeting their daily needs will impact the environment, including negative impacts such as the decline in the quality of the environment due to lead pollution. Lead is an element that is not essential for plants but can be absorbed and poison plants. Research has been conducted on the impact of lead on the metabolomics profile of red ginger (Zingiber officinale var Rubrum.). This study aimed to determine the effect of lead on the growth and metabolism of red ginger. The treatments were PbCl2 50, 100, and 150 ppm with a Completely Randomized Design with six replications. Metabolic profile analysis was performed using HPLC method. Statistic analysis using multivariate Principle Component Analysis (PCA) and Hierarchical Cluster Analysis (HCA). The research showed that the treatment of 100 and 150 ppm PbCl2 in the sample resulted significant differences in plant height growth and toxicity symptoms. These results show that ginger has a tolerance of PbCl2 at a concentration of 50 ppm. PCA and HCA result have separated control with 50 ppm treatment into one cluster, while 100 ppm treatment forms another cluster with 150 ppm treatment. PbCl2 treatment higher than 100 ppm showed a different metabolite profile compared to the control.

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"Logam berat kadmium bersifat non-esensial bagi tumbuhan, namun dapat terakumulasi di dalam organ tumbuhan. Keberadaan kadmium dalam media tanam dapat menyebabkan efek toksik, salah satunya bagi tanaman obat Zingiber officinale var. Rubrum (jahe merah). Penelitian bertujuan untuk mengetahui pengaruh pemberian perlakuan kadmium terhadap pertumbuhan dan profil metabolit sekunder pada rimpang jahe merah. Penelitian ini bersifat eksperimental, dengan Rancangan Acak Lengkap (RAL), menggunakan empat perlakuan dalam bentuk larutan CdCl2 dengan konsentrasi 0 ppm (kontrol), 50 ppm, 100 ppm, dan 150 ppm, dengan 6 ulangan pada setiap perlakuan. Parameter yang diteliti berupa laju pertambahan tinggi tanaman dan berat rimpang yang diolah menggunakan uji ANOVA serta dilanjutkan uji Duncan, gejala toksisitas di daun, dan profil metabolit sekunder yang terdeteksi diolah menggunakan Principal Component Analysis (PCA) dan Hierarchical Cluster Analysis (HCA). Hasil penelitian menunjukkan semakin besar konsentrasi kadmium yang diberikan maka laju pertambahan tinggi tanaman dan berat rimpang semakin menurun. Gejala toksisitas mulai muncul pada pekan ke-2 seperti klorosis dan nekrosis di ujung dan tepi daun. Profil metabolit sekunder rimpang yang terdeteksi membentuk tiga pengelompokan, kelompok I memiliki kemiripan antara sampel perlakuan kadmium 100 ppm dan 150 ppm, sedangkan yang menunjukkan perbedaan terdapat di antara sampel kelompok perlakuan kontrol dan kadmium 50 ppm.

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Heavy metal cadmium is non-essential for plants, but it can accumulate in plants. The presence of cadmium in the growing media can cause toxic effects for the medicinal plants, one of which is the red ginger (Zingiber officinale var. Rubrum). The purpose of this study was to determine the effect of cadmium treatment on the growth and profile of secondary metabolites in the red ginger rhizome. This study was experimental, with a completely randomized design, using four treatments in the form of a CdCl2 solution with a concentration of 0 ppm (control), 50 ppm, 100 ppm, and 150 ppm, the samples used are 6 replications for each treatment. The studied parameters were the rate of increase in plant height and rhizome weight which were processed using ANOVA test and continued with Duncan's test, symptoms of toxicity in the leaves, and the profile of the detected secondary metabolites were processed using Principal Component Analysis (PCA) and Hierarchical Cluster Analysis (HCA). The results showed that the increase the concentration of cadmium given, the growth rate of plant height and rhizome weight decreases. Toxicity symptoms begin to appear in the second week, such as chlorosis and necrosis at the tips and edges of the leaves. The secondary metabolite profiles detected formed three groupings, Group 1 had similarities between the 100 ppm and 150 ppm cadmium treatment samples, while those showing differences were between the control and 50 ppm cadmium treatment samples."

"Senyawa turunan tiazol merupakan senyawa heterosiklik yang memiliki beberapa aktivitas biologis seperti antioksidan. Pada penelitian ini menggunakan (+)- camphor sebagai prekursor dalam mensintesis senyawa turunan tiazol. Senyawa turunan tiazol disintesis dengan mereaksikan senyawa tiazol berbasis kamfor yang terbentuk dengan senyawa aldehid aromatik yaitu 2-hidroksi benzaldehid dan sinamaldehida. Senyawa hasil sintesis dimurnikan, diidentifikasi menggunakan KLT, dan diuji titik lelehnya, serta dikarakterisasi menggunakan Fourier-transform infrared spectroscopy, ultraviolet-visible spectroscopy, nuclear magnetic resonance spectroscopy, dan LC-MS. Setelah itu, senyawa hasil sintesis diuji aktivitas antioksidannya dengan menggunakan metode DPPH. Pada penelitian ini, diperoleh hasil sintesis senyawa camphor thiosemicarbazone sebesar 81,54%, senyawa camphor tiazolidin-4-on sebesar 32,538%, dan senyawa turunan camphor tiazolidin-4-on 1 dengan persen yield campuran sebesar 98,7%. Potensi aktivitas antioksidan ditinjau dengan menggunakan metode DPPH dan diperoleh nilai IC50 senyawa camphor thiosemicarbazone sebesar 103,08 ppm, senyawa camphor tiazolidin-4-on sebesar 26978,16 ppm, dan senyawa turunan camphor tiazolidin-4-on sebesar 3909,14 ppm.

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Thiazole derivatives compounds are heterocyclic compounds that have several biological activities such as antioxidants. In this study, (+)-camphor was used as a precursor in the synthesis of thiazole derivatives. Thiazole derivative compounds were synthesized by reacting the thiazole based camphor compound with aromatic aldehyde compounds, namely 2-hydroxy benzaldehyde and cinnamaldehyde. The synthesized compound purified and identified using TLC, and tested for their melting points, and characterized using fourier-transform infrared spectroscopy, ultraviolet-visible spectroscopy, nuclear magnetic resonance spectroscopy, and Liquid Chromatography-Mass Spectrometer. After that, the synthesized compounds were tested for their antioxidant activity using DPPH method. In this study, percent yield of the synthesis of camphor thiosemicarbazone compounds were 81,54%, camphor thiazolidine-4-on were 32,538%, and camphor thiazolidine-4-on derivatives were 98,7% as a mixed compounds. The potential antioxidant activity was monitored using DPPH method and the IC50 value of camphor thiosemicarbazone was 103,08 ppm, camphor thiazolidine-4-on was 26978,16 ppm, and camphor thiazolidine-4-on derivatives compound was 3909,14 ppm."

"Tiazol dan Oksazol merupakan senyawa heterosiklik beranggota lima yang mengandung sulfur/oksigen dan nitrogen pada posisi 1 dan 3. Derivat kedua Senyawa ini banyak diaplikasikan dalam bidang farmasi dan kesehatan karena memiliki berbagai aktivitas biologis seperti antioksidan, analgesik, antibakteri, antikanker, antiviral, anti alergi, antihipertensi, antiinflamasi, antimalaria, antijamur, dan antipsikotik. Pada penelitian ini dilakukan sintesis senyawa derivat tiazol dan oksazol dalam dua tahap. Tahap awal, prekursor berupa tiourea dan urea direaksikan dengan etil 2-kloro asetoasetat untuk menghasilkan senyawa 1 derivat tiazol dan oksazol. Tahap akhir, senyawa 1 derivat tiazol dan oksazol direaksikan dengan hidrazin hidrat untuk menghasilkan senyawa 2 derivat tiazol dan oksazol. Reaksi awal kedua senyawa derivat tiazol dan oksazol ini didasarkan pada kondensasi Hantzsch. Senyawa derivat tiazol dan oksazol yang terbentuk kemudian dikarakterisasi dengan uji titik leleh, kromatografi lapis tipis (KLT), FTIR, UV-Vis, dan GC-MS. Senyawa 1 derivat tiazol yaitu etil 2-amino-4-metil- 1,3-tiazol-5-karboksilat berhasil disintesis dengan massa produk sebesar 2,978 gram dan kemurnian sebesar 100%. Senyawa 1 derivat oksazol yaitu etil 2-amino- 4-metil-1,3-oksazol-5-karboksilat dengan massa produk campuran sebesar 0,8351 gram dan kemurnian sebesar 4,69%. Senyawa 2 derivat tiazol dan oksazol belum berhasil terbentuk dan masih merupakan senyawa 1 derivat tiazol dan oksazol. Aktivitas antioksidan senyawa derivat tiazol dan oksazol diuji dengan metode DPPH dan didapatkan nilai IC50 sebesar 64,75; 80,73; 275,3; 280,39 ppm.

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Thiazole and oxazole are five-membered heterocyclic compounds containing sulfur/ oxygen and nitrogen in positions 1 and 3. The derivatives of these two compounds are widely applied in the pharmaceutical and medical fields because they have various biological activities such as antioxidants, analgesics, antibacterial, anticancer, antiviral, anti-allergic, antihypertensive, anti- inflammatory, antimalarial, antifungal, and antipsychotic. In this study, the syntheses of thiazole and oxazole derivatives are carried out in two stages. Initially, the precursors in the form of thiourea and urea are reacted with ethyl 2-chloro acetoacetate to produce compound 1 of thiazole and oxazole derivatives. Subsequently, compound 1 of thiazole and oxazole derivates are reacted with hydrazine hydrate to produce compound 2 of thiazole and oxazole derivatives. The initial reactions of these two thiazole and oxazole derivatives are based on the Hantzsch condensation. The formations of thiazole and oxazole derivatives are then characterized using melting point, thin layer chromatography (TLC), FT-IR, UV-Vis, and GC-MS. Compound 1 of thiazole derivative, ethyl 2-amino-4- methyl-1,3-thiazol-5-carboxylate, was successfully synthesized with mass of 2.978 gram and purity of 100%. Compound 1 of oxazole derivative, ethyl 2-amino- 4-methyl-1,3-oxazol-5-carboxylate, was obtained with mixed mass of 0.8351 gram and purity of 4.69%. Compound 2 of thiazole and oxazole derivatives have not been successfully formed and are still compound 1 of thiazole and oxazole derivatives. The antioxidant activity of thiazole and oxazole derivatives was then tested using DPPH method and their IC50 values are 64.75; 80.73; 275.3; 280.39 ppm."

"Retrorsin N-oksida dan allantoin merupakan senyawa yang terkandung dalam daun komfrey. Penelitian ini bertujuan untuk mendapatkan parameter kondisi optimum ionic liquidultrasound assisted extraction (IL-UAE) daun komfrey terhadap kadar retrorsin N-oksida dan allantoin dengan KLT-densitometri, serta uji anti-inflamasi secara in vitro dari ekstrak daun komfrey yang optimum. Daun komfrey diekstraksi dengan 8 jenis IL dengan ultrasound assisted extraction (UAE) dan dilakukan skrining terhadap kadar fenol total, retrorsin Noksida dan allantoin. Ionic liquid terbaik dari hasil skrining dilakukan optimasi respon surface methodology (RSM) dengan desain Box-Behnken terhadap tiga faktor dan tiga level untuk menentukan kondisi ekstraksi yang optimum terhadap kadar retrorsin N-oksida dan allantoin. Hasil optimasi terbaik dari ionic liquid kemudian dilakukan uji aktivitas antiinflamasi in-vitro dengan Bovine Serum Albumin (BSA). Hasil dari skrining IL, diperoleh [HMIM]Cl sebagai ionic liquid terbaik dengan nilai rata-rata kadar fenol total 8,037 µg/g serbuk, retrorsin N-oksida 36,539 µg/g serbuk dan allantoin 663,98 µg/g serbuk. Hasil optimasi ekstraksi dari [HMIM]Cl diperoleh kadar retrorsin N-oksida tertinggi pada run ke12, yaitu 11,9007 µg/g serbuk dan kadar allantoin tertinggi pada run ke 6 yaitu 306,396 µg/g serbuk. Hasil optimasi ekstraksi dari [HMIM]Cl memberikan kondisi optimum pada rasio pelarut dengan serbuk 17,65 mL/g, konsentrasi [HMIM]Cl 1,09 mol/L, waktu ekstraksi 31,9 menit, didapatkan kadar retrorsin N-oksida serta allantoin masing masing sebesar 4,85 µg/g serbuk dan 161,987 µg/g serbuk. Efisiensi ekstraksi IL-UAE sedikit lebih rendah dibandingkan dengan metode konvensional maserasi dan UAE dengan pelarut metanol dalam menarik senyawa fenol dan allantoin. Aktivitas anti-inflamasi didapatkan IC50 masing – masing untuk ekstrak metanol UAE, maserasi, [HMIM]Cl dan residu sebesar 127,661 μg/mL, 137,061 μg/mL, 129,667 μg/mL dan 171,066 μg/mL.

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Retrorsin N-oxide and allantoin are compounds contained in comfrey leaves. The aim of this study was to obtain the optimum condition parameters for ionic liquid-ultrasound assisted extraction (IL-UAE) of comfrey leaves against retrorsin N-oxide and allantoin levels by TLC-densitometry, as well as an in vitro anti-inflammatory test of optimum comfrey leaf extract. Comfrey leaves were extracted with 8 ionic liquids by ultrasound assisted extraction (UAE) and screened for total phenol, retrorsin N-oxide and allantoin levels. The best ionic liquid from the screening was carried out by optimizing the response surface methodology (RSM) with the Box-Behnken design against three factors and three levels to determine the optimum extraction conditions for retrorsin N-oxide and allantoin levels. The best optimization results from the ionic liquid were then tested for anti-inflammatory activity in vitro with Bovine Serum Albumin (BSA). The results of the screening of ionic liquids, obtained [HMIM]Cl is the best ionic liquid with total phenol content with an average value of total phenol content of 8,037 g/g powder, retrorsin N-oxide 36,539 g/g powder and allantoin 663,98 g/g powder. The results of optimization of extraction from ionic liquid [HMIM]Cl obtained the highest levels of retrorsin N-oxide in the 12th run, namely 11.9007 g/g powder and the highest allantoin content in the 6th run, which was 306.396 g/g powder. The results of the optimization of the extraction of the ionic liquid [HMIM]Cl gave optimum conditions at the ratio of solvent to powder 17,65 mL/g, concentration of [HMIM]Cl 1,09 mol/L, extraction time 31,9 minutes, the concentration of retrorsin N-oxide was obtained. and allantoin respectively 4,85 g/g powder and 161,987 g/g powder. The extraction efficiency of IL-UAE is slightly lower than conventional maceration and UAE methods with methanol as a solvent to extract phenolic and allantoin compounds. Anti-inflammatory activity obtained IC50 for UAE methanol extract, maceration, [HMIM]Cl and residue 127,661 g"

"Senyawa derivat kuinolin merupakan senyawa heterosiklik yang memiliki aktivitas biologis yang cukup baik seperti aktivitas antioksidan, antimikroba dan antivirus. Pada penelitian ini menggunakan alumunium klorida sebagai katalis yang dapat mempercepat laju reaksi serta hidrogen peroksida digunakan sebagai agen pengoksidasi yang dapat meningkatkan yield produk yang terbentuk. Hasil massa campuran sintesis derivat 1 menggunakan anilin diperoleh sebesar 48,2 mg dan sintesis derivat 2 dengan 4-nitroanlin sebesar 70,72 mg. Keberhasilan pembentukan senyawa derivat kuinolin dikarakterisasi dengan kromatografi lapis tipis, Uji titik leleh, Fourier Transform Infrared (FTIR) spectrophotometer, Ultraviolet- Visible (UV-Vis) spectrophotometer and Gas Chromatograph/Mass Spectrometer (GC-MS). Hasil sintesis senyawa derivat kuinolin kemudian diklorinasi menggunakan asam trikloroisosianurat dengan asetonitril (CH3CN). Hasil massa campuran derivat 1 terklorinasi diperoleh sebesar 70,1 mg dan derivat 2 terklorinasi sebesar 93,6 mg. Karakterisasi produk senyawa terklorinasi menggunakan gas chromatography mass spectrometry (GC-MS). Pengujian aktivitas antioksidan digunakan metode DPPH yang ditandai dengan perubahan warna ungu menjadi kuning. Hasil IC50 derivat 1 sebesar 311,5779 ppm, derivat 1 terklorinasi sebesar 276,785 ppm, derivat 2 sebesar 268,1427 ppm dan derivat 2 terklorinasi sebesar 192,8858 ppm.

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Quinoline derivate compounds are heterocyclic compounds that have a good biological activity such as antioxidant, antimicrobial, and antivirus activity. This study use aluminum chloride as a catalyst that can accelerate the reaction rate and hydrogen peroxide as an oxidizing agent that can increase the yield of the final product. The mass of a mixture of derivate 1 synthesis using aniline was 48,2 mg and the synthesis of derivate 2 with 4- nitroanline was 70,72 mg. The successful formation of quinoline derivate compounds was characterized by thin layer chromatography, melting point, Fourier Transform Infrared (FTIR) spectrophotometer, Ultraviolet-Visible (UV-Vis) spectrophotometer and Gas Chromatograph-Mass Spectrometer (GC-MS). The results of the synthesis of quinoline derivatives are then chlorinated using trichloroisocyanuric acid with acetonitrile (CH3CN). The mass of chlorinated derivate 1 mixture was obtained at 70,1 mg and chlorinated derivate 2 was obtained at 93,6 mg. Characterization of chlorinated compound products using Gas Chromatograph-Mass Spectrometer (GC-MS). The DPPH method was used to test for antioxidant activity which was marked by a change in color from purple to yellow. The result of IC50 for derivative 1 was 311.5779 ppm, chlorinated derivate 1 was 276.785 ppm, derivate 2 was 268.1427 ppm and chlorinated derivative 2 was 192.8858 ppm."