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Abstrak :
Penelitian mengenai eksplorasi senyawa aktif kapang endofit dari tumbuhan mangrove dan aplikasinya sebagai bioinsektisida telah dilakukan. Sebanyak 110 kapang endofit telah diperoleh dari akar, ranting, daun, dan serasah Rhizophora mucronata, Avicennia marina, dan Soneratia alba menggunakan enam jenis media dan lima jenis metode isolasi. Lima dari 110 isolat kapang endofit menunjukkan toksisitas tertinggi (menyebabkan mortalitas lebih dari 90% pada konsentrasi 80 ppm) terhadap larva Artemia salina. Kelima isolat kapang tersebut diidentifikasi berdasarkan data sequence daerah ITS rDNA dan pengamatan morfologi sebagai Emericella nidulans (BPPTCC 6035 dan BPPTCC 6038), Aspergillus flavus (BPPTCC 6036), A. tamarii (BPPTCC 6037), dan A.versicolor (BPPTCC 6039). Hasil pengujian aktivitas insektisida ekstrak etil asetat dari kultur filtrat biakan kelima strain kapang tersebut pada medium cair malt extract terhadap larva neonate dan instar III Spodoptera litura menunjukkan aktivitas sebagai racun lambung, racun kontak, attractant, racun saraf, dan menghambat perkembangan larva. Karakterisasi senyawa aktif dengan metode thin layer chromatography (TLC) yang dikombinasikan dengan beberapa reagen menunjukkan bahwa kelima ekstrak mengandung senyawa triterpenoid yang mengandung saponin; ekstrak yang dihasilkan oleh E. nidulans BPPTCC 6038 mengandung senyawa fenol; dan keempat ekstrak lain mengandung senyawa alkaloid. Formulasi dilakukan dengan menambahkan senyawa adjuvant berupa aseton sebagai pelarut, Tween 80 sebagai surfaktan, dan PEG 6000 sebagai sticker agent. Hasil pengujian aktivitas kelima formulasi terhadap larva neonate dan instar III S. litura menunjukkan bahwa seluruh formulasi memiliki aktivitas insektisida terhadap larva instar III S. litura lebih baik dibandingkan dengan kontrol positif, DeltametrinR (25 g/L). ......A study on the exploration of active compounds from mangrove endophytic fungi and their application as bioinsecticides was conducted. The isolation of mangrove endophytic fungi from roots, twigs, leaves, and leaf litter from Rhizophora mucronata, Avicennia marina, and Soneratia alba was conducted using a combination of six media with five isolation methods. Five of the 110 mangrove endophytic fungal isolates showed the highest toxicity (causing more than 90% larval mortality at 80 ppm) on Artemia salina larvae. Based on the DNA sequence data of the internal transcribed spacers (ITS) region of ribosomal DNA and morphological characteristics, these isolates were identified as Emericella nidulans (BPPTCC 6035 and BPPTCC 6038), Aspergillus flavus (BPPTCC 6036), A. tamarii (BPPTCC 6037), and A. versicolor (BPPTCC 6039). A bioassay on Spodoptera litura neonate and third instars larvae showed that five ethyl acetate of the five fungal filtrate extracts from malt extract broth medium exhibited attractant and insecticidal activities through stomach poisons, contact poisons, neurotoxins, and the inhibition of larval and pupal development. The chemical characterization of the five extracts using thin layer chromatography (TLC) combined with several reagents showed that the five extracts contained triterpenoid with saponin compounds, the extract from E. nidulans (BPPTCC 6038) contained phenolic compounds, and the four other extracts contained alkaloid compounds. Formulations were conducted by the addition of adjuvant: acetone as the solvent, Tween 80 as the surfactant, and PEG 6000 as the sticker agent. The insecticidal activity from five formulations on S. litura third instars larvae showed that the five formulations exhibited better insecticidal activity than DeltamethrinR (25 g/L) as the positive control.

Abstrak :
Penelitian bertujuan mengisolasi dan mengidentifikasi kapang endofit dari Broussonetia papyrifera, serta mengetahui aktivitas antimikroba kapang endofit terhadap Escherichia coli ATCC 25922, Bacillus subtilis ATCC 6633, dan Candida albicans UICC Y-29. Hasil identifikasi konvensional berdasarkan karakter morfologi menunjukkan kapang-kapang endofit terdiri dari Aspergillus flavus ES6, Aspergillus sparsus ES5, Penicillium chrysogenum ES8, dan Mycelia sterilia ES7. Pengujian dengan blok agar memperlihatkan kapang A. flavus ES6 memiliki aktivitas antimikroba terhadap C. albicans dan kapang P. chrysogenum ES8 memiliki aktivitas antimikroba terhadap B. subtilis, sedangkan kapang A. sparsus ES5 dan mycelia sterilia ES7 tidak memperlihatkan aktivitas antimikroba. ......This research was to isolate endophytic fungi from Broussonetia papyrifera, to identify the isolates, and to investigate their antimicrobial activity against Escherichia coli ATCC 25922, Bacillus subtilis ATCC 6633, and Candida albicans UICC Y-29. Endophytic fungi were identified by conventional method and they were Aspergillus flavus ES6, Aspergillus sparsus ES5, Penicillium chrysogenum ES8, and Mycelia sterilia ES7. Agar block test results of A. flavus ES6 showed antimicrobial activity against C. albicans and P. chrysogenum ES8 against B. subtilis. Aspergillus sparsus ES5 and Mycelia sterilia ES7 showed no antimicrobial activity.

Abstrak :
Telah dilakukan uji sitotoksik metabolit sekunder kapang endofit 1.2.11 tanaman Brucea javanica (L. ) Merr. Sampel tanaman diambil dari Cianjur, bagian tanaman yang digunakan adalah buah. Uji sitotoksik dilakukan terhadap sel Ruji, NS-l, sel HeLa dan sel Vero. Pengamatan dilakukan selama 24 jam dan 48 jam dengan menghitung sel ludup menggunakan metode tripan biru. Penghitungan l CM dilakukan secara aritmatikal dengan rumus Ricd and Muench. Untuk melihat mekanisme kerja pada proses sitotoksik dilakukan teknik pengecatan DNA menggunakan etidium bromida dan acridine orange. Dari penelitian ini diperoleh lCft) terhadap sel Raji 58,35 fjg/ml, 88,39yg/ml; IC50sel NS-1 162,09 pg/ml, 66,24 p. g/ml; IC^ sel HeLa 361,21 pg/ml, 219,97 pg/ml. IC^sel Vero 1075.18 ug/ml, 656,82 ng/ml. Pengamatan dilakukan dalam waktu 24 jam dan 48 jam. Mekanisme kerja dari metabolit sekunder kapang endofit 1.2. 11 terhadap sel NS-1 cenderung melalui mekanisme apoptosis. (Med J Indones 2006; 15:137-44)

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Cytotoxic assay of secondary metabolite endophytic fungus 1.2.11 from Brucea javanica (L.) Merr has been carried out. Brucea Javanica fruit collected from Cianjur was used in this experiment. Cytotoxic assay was done on Raji, NS-1, HeLa and Vero cells. The observation was done for 24 hours and also for 48 hours. I CM was calculated using the Rich and Muench theory. To observe the working mechanism ofcytotoxic process, DNA staining with etidium bromide and acridine orange was conducted. The cytotoxic assay of endophytic fungi 1.2.11 showed an ICft) of 58.35p.g/ml, 88.39 pg/ml on Raji ceil; 162.09 pg/ml, 66.24 pg/ml on NS cell; 361.21 fjg/ml, 219.97 fjg/ml on HelM cell; and lastly 1075.18 fjg/ml, 656.82 /jg/ml on Vero cell after 24 and 48 hour incubation respectively. The results of this study showed that secondary metabolite of endophytic fungus 1.2.11 has selective cytotoxic effect towards cancer cell and also showed that it might cause apoptosis in NS-1 cell. (Med J Indones 2006; 15:137-44)

Abstrak :
The endophytic fungi Aspergillus fumigatus was isolated from the tissues of the fruits of Garcinia griffithii. The fungal strain was identified from the colony, and it was characteristic of cell morphol ogy. The ethyl acetate extracts derived from fungus cultures showed major spots on TLC under UV light, which was continued to the isolation of the secondary metabolites. The structure of the isolated compound was elucidated on the basis of NMR analyses (1H-NMR, 13C-NMR, HMQC, HMBC and H-H COSY). The compounds were identified as: 4,6-dihydroxy, 3,8a-dimethyl-1-oxo-5-(3?-oxobutan-2?-yl)-1,4,4a,5,6,8a-hexahydronaphthalen-2-yl-1?,2?-dimethyl-5?-(2??-methylprop-1??-enyl)cyclopentane-carboxylate.

Abstrak :
Diabets melitus merupakan salah satu masalah kesehatan utama di Indonesia, oleh karena itu obat-obat bagi penderita diabetes terus dikembangkan. Salah satunya adalah obat-obat penghambat α-glukosidase yang dinilai memiliki efek samping yang lebih kecil dibanding obat anti diabetes oral dari golongan lain. Hal ini menyebabkan pencarian senyawa penghambat α-glukosidase dari bahan alam sering dilakukan, terutama senyawa yang berasal dari mikroorganisme. Kapang endofit merupakan salah satu mikroorganisme yang merupakan sumber senyawa metabolit aktif. Penelitian ini bertujuan untuk mengisolasi kapang endofit dari daun Johar (Cassia siamea Lamk.) dan memperoleh hasil uji aktivitas penghambatan α-glukosidase dari hasil fermentasi kapang endofit sebagai daun C. siamea Lamk. Pada penelitian ini dilakukan isolasi kapang endofit dari daun C. siamea Lamk. yang telah terbukti melalui penelitian secara in vivo dapat mengontrol kadar gula darah tikus diabetes. Lima koloni kapang endofit berhasil diisolasi dari daun Johar, dan selanjunya setiap isolat difermentasi. Hasil fermentasi diekstraksi dengan pelarut etil asetat dan metanol. Pada penelitian ini diperoleh sembilan ekstrak yang memiliki aktivitas penghambatan α-glukosidase lebih baik dari akarbose dengan nilai IC50 terkecil sebesar 28,40 ppm.

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Diabetes mellitus is one of the major health problems in Indonesia. Thus, medications for this disease keep going to develop, which one of them is α-glucosidase inhibitor known for their fewer side effects than other antidiabetic oral drugs. Moreover, searching of α-glucosidase inhibitor from natural compound was recently done by many scientists to find the new active compounds. Endophytic fungi have great potential as a source of α-glucosidase inhibitory compounds. This research aims to isolate the endophytic fungi from Johar leaves and to obtain the results of α-glucosidase inhibition assay from fermentation culture of endophytic fungi from Cassia siamea Lamk. On this research, we isolated the endophytic fungi from leaves of Cassia siamea Lamk., proven through in vivo studies, are able to control the blood glucose level of diabetic rats. We successfully isolated five endophytic fungi colonies, and then each isolate was fermented and extracted with ethyl acetate and methanol solvent. Nine extracts showed better α-glucosidase inhibitory activity than acarbose with the smallest 50 value was 28.40 ppm.

Abstrak :
The endophytic fungus diaporthe sp.E show a unique ability to biotransform leucocyanidin in a semisynthetic medium. Extension of the incubation time gave a major product dihydroquercetin which was identified by spectroscopic methods.