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Rossy Fitria

Optimasi produksi enzim lignolitik oleh isolat A-1 dan G. lucidum serta pemurnia parsial dan karakterisasi lakase

"Jamur pelapuk putih (JPP) isolat A-1 dan Ganoderma lucidum yang

merupakan koleksi Balai Penelitian Bioteknologi Perkebunan Indonesia

diketahui memiliki kemampuan dalam mendegradasi Tandan Kosong Kelapa

Sawit(TKKS). Sehubungan hal tersebut dilakukan pengujian terhadap A-1

dan Ganoderma lucidum untuk menghasilkan enzim lignolitik. Pengujian

aktivitas enzim lignin peroksidase (LiP), mangan peroksidase (MnP)dan

lakase eksoseluler dilakukan selama masa pertumbuhannya didalam

beberapa variasi media. Hasil pengamatan menunjukan bahwa tidak ada aktivitas MnP eksoseluler yang terdeteksi pada masing-masing isolat di

dalam medium uji, meskipun pada uji pendahuluan ekstrak miselium

Ganoderma lucidum menghasilkan aktivitas MnP endoseluler sebesar 0,66

U/mL pada media PDA. Dari seluruh medium yang diuji isolat A-1 hanya

menghasilkan lakase dengan aktivitas tertinggi pada media yang

mengandung 2% Energen cereal sebesar 1.162 U/mL pada inkubasi hari ke-

6 dengan pH pertumbuhan 5,0. Sedangkan Ganoderma lucidum hanya

menghasilkan LiP dengan aktivitas tertinggi pada media glukosa-melt-yeast

(GMY) sebesar 1.720 U/mL pada inkubasi hari ke-2 dengan pH pertumbuhan

5.5. Uji peningkatan aktivitas lakase isolat A-1 lebih lanjut terjadi pada media

yang mengandung 2% TKKS sebesar 0.38 U/mL pada inkubasi hari ke-10

dengan pH pertumbuhan 6,54. Purifikasi parsial pada kolom Sephacryl S-200

HR terhadap ekstrak enzim lakase pada medium 2%TKKS hari ke-15

menunjukan bahwa enzim lakase ter-recovery sebesar 58,23% dengan

kemurniaan 2 kalinya. Isolat A-1 menghasilkan aktivitas lakase maksimum

pada pH optimum 4,5. Aktivitas lakase tetap stabil setelah pemanasan

selama 30 menit pada temperatur kamar hingga 50oC dan menurun tajam

pada suhu 60oC. Pengaruh konsentrasi substrat ABTS terhadap aktivitas

lakase isolat A-1 menghasilkan harga KM dan Vmaks masing-masing 0.15mM

dan 0.56 U/mL."

Depok: [Fakultas Matematika dan Ilmu Pengetahuan Alam. Universitas Indonesia, Universitas Indonesia], [2005, 2005]

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Lira Windriawati Listriyani

Optimasi Ekstraksi Senyawa Polisakarida dari Ganoderma lucidum dengan Bantuan Enzim dan Gelombang mikro, Karakterisasi, dan Aktivitas Antioksidannya = Optimization of Enzyme-Microwave Assisted Extraction of Ganoderma lucidum Polysaccharides, It’s Characterization and Antioxidant Activity

"Ekstraksi dengan bantuan enzim dan gelombang mikro menjadi proses baru untuk mengekstrak polisakarida dari Ganoderma lucidum (PGL). Cellic® CTec2 dipilih sebagai en-zim yang membantu dalam ekstraksi gelombang mikro. Empat variabel yang terlibat dalam penelitian ini adalah konsentrasi enzim (%), waktu reaksi enzimatik (menit), rasio pelarut terhadap padatan (mL/g), dan waktu ekstraksi gelombang mikro (menit). Analisis statistik dari hasil percobaan menunjukkan bahwa konsentrasi enzim dan rasio pelarut terhadap padatan berpengaruh signifikan terhadap respons dalam rentang yang dipelajari. Rendemen ekstraksi polisakarida dari percobaan yang dilakukan pada kondisi optimum menunjukkan kesesuaian yang baik dengan prediksi dari model. Metode EMAE menunjukkan rendemen PGL yang lebih tinggi dibandingkan dengan metode HWE. PGL dari metode EMAE memiliki aktivitas antioksidan sebesar 79,47 ± 0,71% (DPPH) dan 0,884 ± 0,013 mM Fe2+/L (FRAP), dimana nilai ini lebih tinggi dibandingkan dengan yang diperoleh dari metode HWE yaitu 45,73 ± 1,79% (DPPH) dan 0,691 ± 0,038 mM Fe2+/L (FRAP). Selanjutnya kandungan ?-glukan PGL dari metode EMAE sebesar 0,70 ± 0,04 g/10 g, sedangkan dari metode HWE hanya 0,22 ± 0,03 g/10 g.

Enzyme-Microwave Assisted Extraction (EMAE) is a new process for extracting Ganoderma lucidum polysaccharides (GLPs). Cellic® CTec2 was chosen as an enzyme that assists in microwave extraction. The four variables involved in this study were enzyme concentration (%), enzymatic reaction time (minutes), solvent-to-solid ratio (mL/g), and microwave extrac-tion time (minutes). This study showed that the enzyme concentration and solvent-to-solid ratio had a significant effect on the response in the range studied. Yield extraction of polysaccharides from experiments conducted at optimum conditions showed good agreement with the predictions from the model. The EMAE method showed a higher polysaccharide extraction yield than hot water extraction (HWE) method. GLPs from EMAE method had antioxidant activity of 79.47 ± 0.71% (DPPH) and 0.884 ± 0.013 mM Fe2+/L (FRAP), where these values were higher than those of the HWE method, 45.73 ± 1.79% (DPPH) and 0.691 ± 0.038 mM Fe2+/L (FRAP). Furthermore, the ?-glucan content of GLPs from the EMAE method was 0.70 ± 0.04 g/10 g, while from the HWE method was only 0.22 ± 0.03 g/10 g."

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2023

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Ihda Alhusnayain

Aktivitas dan Karakterisasi Enzim Lakase dari Isolat Jamur Sumber Air Panas di Sebau, Lombok Timur, Nusa Tenggara Barat = Activity and Characterization of Lakase of Fungi Hot Water Sourcein Sebau, East Lombok, West Nusa Tenggara

"Enzim dari jamur merupakan enzim yang sangat potensial untuk mengatasi kendala teknis industri yang berhubungan dengan proses produksi. Salah satu sumber enzim adalah mikroorganisme termofilik yang banyak terdapat pada sumber air panas, salah satunya sumber air panas di Kabupaten Lombok, Indonesia. Penelitian ini bertujuan untuk memproduksi, memurnikan, dan mengkarakterisasi lakase dari isolat jamur yang didapatkan dari penelitian sebelumnya. Jamur yang diperoleh, diremajakan kembali dalam medium potato dextrose agar (PDA). Isolate jamur kemudian dioptimasi pada 4 medium yang berbeda, selanjutnya disentrifugasi dengan kecepatan 3000 rpm pada suhu 4°C untuk memperoleh pellet. Pellet dimurnikan seacara parsial dengan ammonium sulfat dan dialisis menggunakan membran dialisis dengan ukuran MW cut-off 8000-14000 Da. Aktivitas enzim diukur menggunakan alat spektrofotometri UV-Vis dengan 2.2'-azino-bis (3-etilbenzthiazolin-6-asam sulfonat) (ABTS) sebagai substrat pada panjang gelombang 420 nm. Pellet dengan aktivitas tertinggi selanjutnya di evaluasi karakternya yang meliputi pH, suhu, dan kinetika reaksi. Berdasarkan hasil yang diperoleh, peremajaan jamur yang optimal tumbuh pada suhu 35ºC, selanjutnya aktivitas tertinggi dengan nilai 8,8148 U/mL berasal dari medium 2 dengan pH optimum 5,0, suhu inkubasi optimal 30ºC, dan laju reaksi maksimum enzim (Vmaks) Lakase adalah 7,5851 μmol/mLmenit serta nilai konstanta Michaelis-Mentennya (Km) adalah 0,3816 μmol/mL. Oleh karena itu, dapat disimpulkan bahwa jamur yang tumbuh pada penelitian ini bukan jamur termofilik.

Enzymes from fungi are enzymes that are highly potential to overcome industrial technical barriers related to the production process. One of the sources of enzymes is thermophilic microorganisms that are many found in hot water sources, one of which is hot water in Lombok,Indonesia. The study aims to produce, purify, and characterize lacase from fungal isolates obtained from previous studies. The resulting mushrooms are re-maintained in a medium of potato dextrose. (PDA). The fungus isolate was then optimized on 4 different media, then centrifugated at a speed of 3000 rpm at a temperature of 4°C to obtain pellets. The pellet is partially purified with ammonium sulfate and dialysed using a dialytic membrane with a MWcut-off size of 8000-14000 Da. Enzyme activity was measured using UV-Vis spectroscopic instrument with 2.2'- azino-bis (3-ethylbenzthiazolin-6-acid sulfonate) (ABTS) as a substrate ata wavelength of 420 nm. Pellets with the next highest activity in their character evaluation that includes pH, temperature, and reaction kinetics. Based on the results obtained, optimal fungalrejuvenation grows at a temperature of 35ºC, then the highest activity
with a value of 8.8148 U/mL comes from the medium 2 with an optimal pH of 5.0, the optimal incubation temperature of 30ºC, and the maximum enzyme reaction rate (Vmax) of Lakase is 7.5851 μmol/mlminute and the Michaelis-Menten constant value (Km) is 0.3816 μmol/mL. Therefore, it can be concluded that the mushrooms that grew in this study were not thermophilic fungi."

Depok: Fakultas Farmasi Universitas Indonesia, 2023

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Heru Mardhani

Purifikasi parsial dan karakterisasi enzim peroksidase dari jamur cortinarius magnivelatus

"Enzim peroksidase adalah enzim yang mengkatalisis reaksi oksidasi sejumlah substrat yang merupakan donor hidrogen seperti asam askorbat, benzidin , pirogalol. dan fenol oleh hidrogen perokslda. Enzim ini banyak memberikan manfaat baik dalam bidang medis maupun industri. Oleh karena itu perlu dilakukan pencarian sumber peroksidase, salah satunya adalah jamur Corttnaiias msgnivetatus. Penetitian rnr bertujuan untuk mengisolasi enzim peroksidase dan jamur Cortinarius magnivelatus dan memurnikannya secara parsial serta mengkarakterisasi enzim yang telah terisolasi tersebut. Telah dilakukan isolasi enzim peroksidase dan jamur Cortinarius magnivelatus yang menghasilkan enzim ekstrak kasar dengan nilai aktivitas spesifik 0.249 U/mg. Pemumian secara parsial dilakukan dengan cara fraksionasi dengan garam ammonium sulfat, dialisis, dan kromatografi penukar anion DEAE-Selulosa dengan pengelusi buffer fosfat 0.05 M pH 8,0; buffer fosfat 0.05 M pH 7,0; dan buffer fosfat 0.2 M pH 7,0. Tahap pemumian dengan cara Fraksionasi menggunakan ammonium sulfat (55 %) dihasilkan enzim dengan nilai aktivitas spesifik sebesar 0,626 U/mg dan tingkat kemurnian 2,514 kali. Sedangkan tahap pemumian dengan kromatografi kolom DEAE Selulosa menghasilkan enzim peroksidase dengan aktivitas spesifik sebesar 9.788 U/mg dan tingkat kemumian 39.309 kali dari ekstrak kasamya. Karakteristik dilakukan dengan menentukan pH dan suhu optimum, kinetlka reaksi enzim peroksidase dan uji kualitatif dalam mengkatallsis pembentukan senyawa polimer. Hasil pengujian karakteristik terhadap enzim peroksidase terisoiasi tersebut menunjukkan bahwa enzim peroksidase terisoiasi memiliki aktivitas maksimum pada pH 7,0; dan suhu optimum 30°C, dengan nilai Km sebesar 0.0026 M. Uji kualitatif pembentukan senyawa polimer dari guaiakol dengan katalis enzim peroksidase menunjukkan hasil positif dengan terbentukhya warna merah kecoklatan dibanding blanko."

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2005

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Atyka Yuliastuti

Studi Reaksi Kopling Oksidatif Senyawa Isolat Mesua kunstleri dengan Katalis Enzim Kasar Lakase dan Uji Aktivitas Biologis Produk Reaksi

"Pada penelitian ini, digunakan enzim lakase yang diisolasi dari jamur tiram putih (Pleurotus ostreatus). Reaksi kopling oksidatif dilakukan terhadap senyawa isolat Mesua kunstleri dalam medium bifasa (etil asetat : buffer fosfat = 4:1) dengan hidrokuinon sebagai mediator. Pemurnian produk reaksi dengan KLT preparatif menghasilkan suatu isolat yang selanjutnya diidentifikasi dengan menggunakan spektrofotometer UV-Vis, FT-IR dan LC-MS. Hasil analisis LC-MS menunjukkan telah terbentuk suatu senyawa baru yang diduga merupakan hasil penggabungan dari senyawa isolat Mesua kunstleri dengan nilai m/z = 803,549 pada waktu retensi 4,102- 4,269 menit. Hasil dari uji antioksidan dan alelopati menunjukkan bahwa senyawa produk reaksi memiliki aktivitas yang lebih rendah dibandingkan dengan senyawa isolat Mesua kunstleri, disebabkan struktur dari senyawa produk reaksi yang lebih sterik.

Enzyme laccase that isolated from white oyster mushroom (Pleurotus ostreatus) is used for oxidative coupling reaction from Mesua kunstleri's compound. The reaction was done using biphasic medium (ethyl acetate : phosphate buffer = 4:1) and used hydroquinone as mediator. Product of reaction was purified by TLC preparative and then identified by UV-Vis spectrophotometer, FT-IR and LC-MS. The LC-MS analysis showed the new compound from coupling reaction Mesua kunstleri’s compound with m/z value = 803,549 at retention time 4,102- 4,269 minutes. The product reaction showed lower activity in assay of antioxidant and allelopathy compared with origin Mesua kunstleri's compound, that presumed in relation with steric hindrance of phenolic functional groups."

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2010

S30719

UI - Skripsi Open Universitas Indonesia Library

Jiihan Mardhi Ulhaq

Kajian Produksi dan Purifikasi Enzim Lakase untuk Aplikasi Biodelignifikasi = Study of Laccase Enzyme Production and Purification for Biodelignification Applications

"ABSTRAK

Produktivitas pertanian di Indonesia terus meningkat dari tahun ke tahun dan menghasilkan limbah yang seringkali dibuang begitu saja. Selulosa merupakan polimer alam yang biokompatibel dan ramah lingkungan karena sifatnya yang mudah terdegradasi, tidak beracun, serta dapat diperbarui. Selulosa bisa didapatkan dari berbagai limbah pertanian. Untuk memperoleh selulosa dari limbah pertanian, dapat dilakukan proses biodelignifikasi menggunakan enzim lakase. Tujuan review artikel ini adalah untuk mengkaji penggunaan enzim lakase pada limbah pertanian serta aktivitas enzim lakase yang dihasilkan. Artikel review ini akan berfokus memaparkan informasi terkait penelitian enzim lakase, khususnya beberapa kondisi yang dapat mempengaruhi perolehan aktivitas enzim lakase. Enzim lakase dapat diperoleh dari fungi pelapuk putih dan dapat diaplikasikan untuk biodelignifikasi yang lebih ramah lingkungan tanpa menggunakan banyak bahan kimia dan memakan waktu lebih sedikit dibandingkan dengan menggunakan mikroorganisme saja. Terdapat banyak faktor yang mempengaruhi perolehan aktivitas enzim untuk proses biodelignifikasi seperti pH, sumber karbon dan nitrogen, suhu dan induser. Variasi induser pada media produksi enzim lakase berpengaruh terhadap perolehan aktivitas enzim. Maka dari itu perlu dilakukan perbandingan dari berbagai penelitian sebelumnya untuk memperoleh kondisi optimum yang menghasilkan aktivitas enzim lakase yang tinggi. Keadaan yang menghasilkan aktivitas enzim tinggi direkomendasikan untuk diaplikasikan pada proses biodelignifikasi. Selulosa yang diperoleh selanjutnya dapat dimurnikan dan dapat diderivatisasi untuk pembuatan eksipien sediaan farmasi.

ABSTRACT
Agricultural productivity in Indonesia continues to increase from year to year and produces waste that is often thrown away. Cellulose is a natural polymer that is biocompatible and environmentally friendly because it is easily degraded, non toxic, and renewable. Cellulose can be obtained from various agricultural wastes. To obtain cellulose from agricultural waste, biodelignification can be done using the . The purpose of this article review is to examine the use of laccase enzymes in agricultural waste and the activity of laccase enzymes produced. This review article will focus on describing information related to laccase enzyme research, specifically several conditions that can affect the acquisition of laccase enzyme activity. Laccase enzymes can be obtained from white rot molds and can be applied to biodelignification which is more environmentally friendly without using many chemicals and takes less time than using microorganisms alone. There are many factors that influence the acquisition of enzyme activity for biodelignification processes such as pH, carbon and nitrogen sources, temperature and inducer. Variation of inducer on laccase enzyme production media influences the acquisition of enzyme activity. Therefore it is necessary to make comparisons from various previous studies to obtain optimum conditions that produce high laccase enzyme activity. Circumstances that produce high enzyme activity are recommended to be applied to the biodelignification process. The cellulose obtained can then be purified and can be derivatized for the manufacture of excipients of pharmaceutical preparations."

Depok: Fakultas Farmasi Universitas Indonesia, 2020

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Isolasi bakteri dan karakterisasi parsial enzim oksidoreduktase dari Situ Agathis, Kampus Universitas Indonesia, Depok

"Oxydoreductases are enzymes which catalyze oxidation-reduction reaction of their corresponding substrates. Oxydoreductase enzymes from many microorganisms had become major focus of research during last decades. This reaction had been utilized in biosensor (Yuhashi et al. 2005), biotransformation and biofuel (Zu et al. 2006). In the field of biosensor, glucose dehydrogenase application as self-blood glucose monitoring had evolved through several generation to enhance its sensitivity and specificity (Witarto et al. 1997).
Oxydoreductase involve cofactor in their active sites. According to Anthony (1996) among several known cofactors such nicotinamide, flavonoid, and quinone, Pyrollo Quinoline Qinone (PQQ) as the member group of quinon is one of the latest known-cofactors. PQQ differs from other cofactor since it is not covalently bond to its enzyme (Oubrie et al. 1999). PQQ ubiquitously found in all organisms from prokaryote to eukaryote (Bishop et al. 1998). Bacteria is the largest group of PQQ-oxydoreductase producing microorganisms. They successfully isolated from many habitats such: soil, water (Toyama et al. 1995), fruits (Adachi et al. 2003), plants, and in human mouth (Anesti et al. 2005). However, study on PQQ-oxydoreductase producing bacteria isolation had never been reported in Indonesia.
PQQ-Oxydoreductase bacteria are able to utilize organic substrates such glucose, ethanol, methanol, up to polyvinyl alcohol (Ameyama et al. 1985). One of the habitats which provides such organic substrates is Situ Agathis located in University of Indonesia Depok. Situ Agathis contain humic substances that could be degraded in to glucose, ethanol, methanol, also quinone.
In this study, isolation of oxydoreductase-producing bacteria from Situ Agathis University of Indonesia, Depok and characterization of oxydroreductases of selected isolates were performed. The objectives of this research are: to investigate the presence of oxydoreductase-producing bacteria, to isolate the oxydoreductases -producing bacteria, and to partially characterize oxydoreductases from Situ Agathis University of Indonesia Depok. This is the first study on bacteria isolation performed in Situ Agathis UI, Depok. Hence, this study can provide information about the oxydoreductases- producing bacteria from Situ Agathis, which located in UI, Depok. The study consists of two part: first part describe the isolation of oxydoreductase-producing bacteria from Situ Agathis. Second part describe the partial characterization of oxydoreductases which covers enzyme activity, molecular weight, and PQQ effects on the enzymes activity.
The research was carried out at the Protein Engineering Laboratory, Biotechnology Research Centre, Indonesian Institute of Science, Cibinong and the Laboratory of Microbiology, Department of Biology, University of Indonesia, Depok during February ? September 2007. The isolation of bacteria was conducted in three methods i.e : dilution, filtration using filter paper Milipore membran (0.2 μm) based on Cappucino and Sherman (2002). Isolation of oxydoreductase-producing bacteria was carried out by using selective media based on Toyama et al. (1995). The assay of oxydoreductases was performed by using Native-PAGE based on Khodijah (2002).
The result showed that 83 isolates were obtained from Situ Agathis which we assumed could produce oxydoreductase enzymes. Among those isolates, 15 isolates were randomly selected for further study e.g : five isolates which could grow in glucose as sole carbon sources by producing glucose dehdyrogenase, six isolates which could grow on ethanol as sole carbon sources by producing ethanol dehydrogenase and four isolates which could grow on methanol as sole carbon sources by producing methanol dehydrogenase. The selected isolates showed various morphotypes indicating no specific morphological character in oxydoreductase-producing bacteria.
Two oxydoreductases from selected isolates were selected to be analyzed further in second part this thesis. Those enzymes were examined for their possibility to have intracellular PQQ cofactor. Those enzymes were obtained from isolate G1H1D30 (glucose dehydrogenase) and isolate A1H2D60 (ethanol dehydrogenase). Native-PAGE result confirmed that crude extract fraction, dialyzed fraction and elution of open column chromatography of isolate G1H1D30 can produce glucose dehydrogenase and isolate A1H2D60 can produce ethanol dehdyrogenase. The molecular weight of glucose dehydrogenase subunit is about 46 kDa using SDS-PAGE.
SDS-PAGE of ethanol dehydrogenase did not show any protein band in acrylamide gel. We assumed that the amount of protein extracted from cell cytoplasm was not sufficient enough to be detected in SDS-PAGE. Cell of isolate A1H2D60 should be treated by other destruction method such as French pressure or ultrasonicator since this isolate is Gram positive bacteria which had thicker peptydoglycan layer than isolate G1H1D30 which is Gram negative bacteria.
Other characterization performed was addition of PQQ as the cofactor to investigate its effect on enzymes activity. Glucose dehydrogenase from isolate G1H1D30 was known to be PQQ dependent enzymes from its activity increased after addition of PQQ. The addition of PQQ raised the indicating no specific morphological character in oxydoreductase-producing bacteria.
Two oxydoreductases from selected isolates were selected to be analyzed further in second part this thesis. Those enzymes were examined for their possibility to have intracellular PQQ cofactor. Those enzymes were obtained from isolate G1H1D30 (glucose dehydrogenase) and isolate A1H2D60 (ethanol dehydrogenase). Native-PAGE result confirmed that crude extract fraction, dialyzed fraction and elution of open column chromatography of isolate G1H1D30 can produce glucose dehydrogenase and isolate A1H2D60 can produce ethanol dehdyrogenase. The molecular weight of glucose dehydrogenase subunit is about 46 kDa using SDS-PAGE.
SDS-PAGE of ethanol dehydrogenase did not show any protein band in acrylamide gel. We assumed that the amount of protein extracted from cell cytoplasm was not sufficient enough to be detected in SDS-PAGE. Cell of isolate A1H2D60 should be treated by other destruction method such as French pressure or ultrasonicator since this isolate is Gram positive bacteria which had thicker peptydoglycan layer than isolate G1H1D30 which is Gram negative bacteria.
Other characterization performed was addition of PQQ as the cofactor to investigate its effect on enzymes activity. Glucose dehydrogenase from isolate G1H1D30 was known to be PQQ dependent enzymes from its activity increased after addition of PQQ. The addition of PQQ raised theindicating no specific morphological character in oxydoreductase-producing bacteria.
Two oxydoreductases from selected isolates were selected to be analyzed further in second part this thesis. Those enzymes were examined for their possibility to have intracellular PQQ cofactor. Those enzymes were obtained from isolate G1H1D30 (glucose dehydrogenase) and isolate A1H2D60 (ethanol dehydrogenase). Native-PAGE result confirmed that crude extract fraction, dialyzed fraction and elution of open column chromatography of isolate G1H1D30 can produce glucose dehydrogenase and isolate A1H2D60 can produce ethanol dehdyrogenase. The molecular weight of glucose dehydrogenase subunit is about 46 kDa using SDS-PAGE.
SDS-PAGE of ethanol dehydrogenase did not show any protein band in acrylamide gel. We assumed that the amount of protein extracted from cell cytoplasm was not sufficient enough to be detected in SDS-PAGE. Cell of isolate A1H2D60 should be treated by other destruction method such as French pressure or ultrasonicator since this isolate is Gram positive bacteria which had thicker peptydoglycan layer than isolate G1H1D30 which is Gram negative bacteria.
Other characterization performed was addition of PQQ as the cofactor to investigate its effect on enzymes activity. Glucose dehydrogenase from isolate G1H1D30 was known to be PQQ dependent enzymes from its activity increased after addition of PQQ. The addition of PQQ raised theenzyme activity to eight fold from 0.102 U/mL to 0.94 U/mL of crude enzyme extract. In contrast, addition of PQQ did not give significant effect to EDH enzyme activity (activity of crude enzyme remain 0.082 U/mL in the presence and absence of PQQ). However, further study should be performed to analyze the real cofactor of EDH from isolate A1H2D60. EDH differs from GDH since it had disulphide ring which stabilize PQQ bound to its enzyme.
Hence, PQQ could remain bound to EDH as purification procedure performed. PQQ-GDH do not have any disulphide ring which could stabilize PQQ bound. This fact implicated unstable PQQ bound to GDH while isolation and purification performed."

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2008

T39491

UI - Tesis Open Universitas Indonesia Library

Pratiwi Yuliana

Karakterisasi morfologi dan molekuler isolat-isolat nostoc [vaucher 1803] bornet et flauhalt 1886 dari tanah persawahan di indonesia berdasarkan sekuen parsial gen 16s rRNA

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2009

S31571

UI - Skripsi Membership Universitas Indonesia Library

Produksi lakase dan potensi aplikasinya dalam proses pemutihan pulp

"This study was focused on production and utilisation of loccase in pulp bleaching process. Loccase was produced by white-rot fungi of Marasmius sp which was immobilised in luffa sponge in a modified immersion bioreactor...."

Artikel Jurnal Universitas Indonesia Library

Lisda Apriani

Seleksi bakteri penghasil enzim kitinolitik serta pengujian beberapa variasi suhu dan pH untuk produksi enzim

"Penelitian dilakukan di Laboratorium Teknologi Bioindustri, Pusat Teknologi Bioindustri, Badan Pengkajian dan Penerapan Teknologi (LTBPTB- BPPT)-Serpong. Penelitian bertujuan mengetahui kemampuan delapan isolat bakteri dari limbah kulit udang asal Palembang dalam memproduksi enzim kitinolitik, serta menentukan suhu dan pH optimum untuk produksi enzim dari satu isolat terpilih. Pengujian aktivitas kualitatif enzim ditentukan dengan nilai indeks kitinolitik dan aktivitas kuantitatif enzim ditentukan dengan mengukur kemampuan enzim dalam menghidrolisis kitin menjadi N-asetilglukosamin. Semua isolat uji menunjukkan adanya zona bening dan indeks kitinolitik tertinggi ditunjukkan oleh isolat C15 dengan nilai 1,73. Tujuh isolat bakteri, C4, C6, C8, C12, C14, C15, dan D10 menunjukkan produksi enzim yang fluktuatif, kecuali isolat D6. Isolat D6 dipilih untuk penentuan suhu dan pH optimum dalam produksi enzim kitinolitik. Pengamatan produksi enzim kitinolitik isolat D6 dengan variasi suhu dan pH menunjukkan bahwa produksi enzim tertinggi pada suhu 30o C dan pH 7 (0,0643 U/mg; 0,0032 U/ml)."

Depok: Universitas Indonesia, 2008

S31531

UI - Skripsi Open Universitas Indonesia Library

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