Ditemukan 5 dokumen yang sesuai dengan query
Syifa Rizki Nabilla
"Delignifikasi digunakan untuk memisahkan lignin dari lignoselulosa dengan tujuan mendapatkan kandungan selulosa yang tinggi. Beberapa metode yang digunakan untuk delignifikasi yaitu secara kimiawi dan biologis. Biodelignifikasi merupakan metode delignifikasi secara biologis dengan menggunakan bantuan enzim ligninolitik yang dapat diperoleh dari bakteri. Metode biodelignifikasi memiliki beberapa kelebihan seperti lebih ramah lingkungan dan menghasilkan hasil degradasi yang lebih tinggi. Namun demikian, terdapat beberapa faktor yang memengaruhi produksi enzim dari bakteri untuk proses biodelignifikasi seperti pemilihan substrat, sumber nitrogen, suhu dan pH. Maka dari itu perlu dilakukan perbandingan dari berbagai penelitian sebelumnya untuk memeroleh kondisi optimum bakteri dalam menghasilkan enzim ligninolitik dan potensinya dalam proses biodelignifikasi. Hasil studi literatur menunjukkan bahwa kondisi optimum yang menghasilkan produksi enzim ligninolitik dari bakteri adalah dengan menggunakan substrat dari tandan kosong kelapa sawit, sumber nitrogen dari amonium nitrat, pada suhu 30-50°C dan pH basa. Hasil studi literatur juga menunjukkan bahwa enzim ligninolitik dari bakteri berpotensi untuk proses biodelignifikasi karena enzim dari bakteri memiliki tolerabilitas yang tinggi, lebih stabil dan laju pertumbuhannya yang cepat.
Delignification is a process to separates lignin from lignocellulose compounds to acquire cellulose in high purity. Several methods for delignification are chemical and biological. Biodelignification is a process delignification that use ligninolytic enzymes. Ligninolytic enzymes used in biodelignification processes are acquired from bacteria. Biodelignification has several advantages such as being more environmentally friendly and can produce higher degradation results. However, there are several factors that influence the activity of ligninolytic enzymes for biodelignification processes such as mediator, temperature and pH level. Therefore it is necessary to make comparisons from various previous studies to obtain optimum conditions that produce ligninolytic enzymes from bacteria and determine the potential of ligninolytic enzymes from bacteria to be applied in the biodelignification process. The result of literature study is the optimum conditions that produce ligninolytic enzymes from bacteria when using oil palm empty fruit bunch as substrat, ammonium nitrate as nitrogen source, at temperature of 30-50°C and with an alkaline pH. The result of literature study also show that ligninolytic enzymes from bacteria have the potential for biodelignification process because enzymes from bacteria have a high tolerability, more stable and have a fast growth rate."
Depok: Fakultas Farmasi Universitas Indonesia, 2023
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Tasya Nabila Nevilda
"Produksi tekstil menghasilkan limbah pewarna dalam jumlah besar yang menyebabkan timbulnya permasalahan bagi lingkungan dengan adanya pewarna azo yang bersifat toksik, mutagenik, dan karsinogenik. Oleh karena itu, biodegradasi pewarna menggunakan sel mikroba atau enzim penting untuk dikembangkan sebagai metode biologis dalam pengolahan limbah pewarna tekstil. Penelitian ini bertujuan untuk memperoleh enzim lignolitik untuk mendegradasi limbah pewarna tekstil yang memiliki struktur serupa dengan senyawa lignin. Peremajaan isolat jamur dilakukan pada media PDA dan serbuk daun nanas untuk menginduksi aktivitas lignolitiknya. Aktivitas enzim LiP ditentukan setelah mengukur absorbansi menggunakan spektrofotometri UV-Vis dengan mengukur laju oksidasi veratril alkohol menjadi veratril aldehid dengan adanya penambahan H2O2 pada panjang gelombang 310 nm. Larutan fraksi enzim LiP didapatkan dari fraksinasi dengan ammonium sulfat saturasi 80% dan dialisis dengan membrane dialisis MW cut-off 10000 Da. Optimasi pengaruh waktu inkubasi, pH, temperatur, dan rasio konsentrasi enzim-substrat dilakukan untuk mengetahui kondisi optimum aktivitas fraksi enzim LiP dalam mendekolorisasi pewarna azo Amido hitam 10B. Aktivitas enzim LiP didapatkan sebesar 0,5806 U/ml. Kondisi optimum yang diperoleh dari hasil uji optimasi, yakni temperatur 50°C, pH 5, rasio enzim-substrat sebesar 1:1, dan waktu inkubasi selama 72 jam. Hasil optimasi tersebut digunakan pada proses aplikasi dekolorisasi sampel limbah cair industri tekstil. Nilai efisiensi dekolorisasi pada limbah cair industri tekstil dan pewarna sintetis Amido hitam 10B dengan nilai masing-masing sebesar 16,79% dan 46,27%.
Textile production produces large amounts of dye waste which causes problems for the environment with the presence of toxic, mutagenic, and carcinogenic azo dye. Therefore, dye biodegradation uses microbial cells or enzymes is being developed as a biological treatment of textile dye waste. The study aims to obtain lignolytic enzymes to degrade textile dye waste that have a similar structure to lignin compounds. Rejuvenation of fungal isolates is carried out on PDA media and pineapple leaf powder to induce its lignolytic activity. LiP enzyme activity was determined after measuring absorption using UV-Vis spectrophotometry by measuring the rate of oxidation of veratryl alcohol into veratril aldehyde with the addition of H2O2 at a wavelength of 310 nm. LiP enzyme fraction solution is obtained from fractioning with 80% ammonium sulfate saturation and dialysis with a membrane dialysis MW cut-off of 10000 Da. The effect of incubation time, pH, temperature, and enzyme-substrate concentration ratio was optimized to determine the optimal conditions for LiP activity in the decolorization synthetic dye Amido Black 10B. LiP enzyme activity value is 0.5806 U/ml. The optimum conditions from the optimization test results are temperature 50°C, pH 5, enzyme-substrat ratio of 1:1, and incubation time of 72 hours. The results of the optimization are used in the application process of decolorization of textile industry wastewater fluid waste samples of the textile industry. Decolorization efficiency values on wastewater from textile industry and synthetic dye Amido black 10B are 16.79% and 46.27% respectively."
Depok: Fakultas Farmasi Universitas Indonesia, 2023
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Husnun Hamidah Abbas
"[Dioksin merupakan senyawa berbahaya yang dapat menyebabkan gangguan kulit, hati, hingga menimbulkan kanker. Degradasi dioksin dapat dilakukan oleh mikroorganisme seperti kapang yang menghasilkan enzim ligninolitik. Penelitian bertujuan untuk mendapatkan kapang yang memiliki enzim ligninolitik sehingga berpotensi dalam mendegradasi dioksin. Aktivitas enzim ligninolitik terlihat dari penghilangan warna pada Remazol Brilliant Blue R (RBBR) dan Poly S-119. Metode penelitian meliputi seleksi pada medium padat dan cair, pengukuran aktivitas enzim ligninolitik, serta identifikasi isolat. Seleksi kapang pada medium padat dilakukan dengan medium yang mengandung RBBR dan Poly S-119. Seleksi cair dilakukan dengan mengukur degradasi warna dan aktivitas enzim ligninolitik (lakase, mangan peroksidase, dan lignin peroksidase). Isolat hasil
seleksi diidentifikasi molekular 28S rRNA menggunakan primer NL-1 dan NL-4. Hasil seleksi padat menunjukkan sembilan isolat dengan zona degradasi, yaitu FIG- KT-540.1; F-IG-KT-539.2; F-IG-PT-6.3; F-IG-PT 1.16; F-IG-PT-2.14; F-IGPT- 2.5; F-IG-PT-2.7; F-IG-PT-3.1; dan F-IG-PT-2.11. Hasil seleksi cair menunjukkan dua isolat memiliki kemampuan mendegradasi warna tinggi yaitu FIG- KT-540.1 sebesar 59% mendegradasi warna RBBR dan F-IG-PT 1.16 sebesar 85% mendegradasi warna Poly S-119. Isolat F-IG-KT-540.1 dan F-IG-PT 1.16 memiliki aktivitas MnP yang tinggi sebesar 0,0132 dan 0,0186 ΔOD/ml sampel/menit. Identifikasi kedua isolat menunjukkan isolat F-IG-KT-540.1 adalah Aspergillus oryzae dengan nilai bootstrap 99 dan isolat F-IG-PT 1.16 adalah Penicillium charlesii dengan nilai bootstrap 98. Kesimpulan yaitu isolat F-IG-KT-
540.1 dan F-IG-PT 1.16 yang memiliki kemampuan tinggi mendegradasi warna berpotensi mendegradasi dioksin. Penelitian lebih lanjut perlu dilakukan untuk mengetahui sinergi antara kedua isolat dalam mendegradasi dioksin.
Dioxins are harmful compounds which can damage skin, liver, and cause cancer. It can be degraded by microorganisms such as fungi with its ligninolytic enzymes. The research aim was to obtain fungi that has ligninolytic enzymes which potentially degrade dioxin. Activity of ligninolytic enzymes was showed from decolorization of Remazol Brilliant Blue R and Poly S-119 dye. Methods of the research include selection on solid medium and liquid medium, measurement of ligninolytic activity, and identification of fungal isolates. Selection on solid medium was carried out using RBBR and Poly S-119 dye. Selection on liquid medium was carried out through measurement on the color degradation and activity of ligninolytic enzymes (laccase, manganese peroxidase, and lignin peroxidase). The potential isolates in liquid selection medium were identified on 28S rRNA with NL-1 and NL-4 primers. The result showed that nine isolates havethe degradation zone in a solid medium. They were F-IG-KT-540.1; F-IG-KT- 539.2; F-IG-PT-6.3; F-IG-PT 1:16; F-IG-PT-2:14; F-IG-PT-2.5; F-IG-PT-2.7; FIG- PT-3.1; and F-IG-PT-2.11. In liquid selection medium, F-IG-KT-540.1 and FIG-PT 1.16 isolates showed high capability to degrade dyes. Percentage of RBBR degradation in isolate F-IG-KT-540.1 was 59% and percentage of Poly S-119 degradation in isolate F-IG-PT-1.16 was 85%. Both F-IG-KT-540.1 and F-IG-PT 1.16 isolate have high activity of MnP. Activity of MnP of those isolate were 0,0132 and 0,0186 ΔOD/ml/minutes respectively. The result of identification showed that F-IG-KT-540.1 isolate was Aspergillus oryzae with value ofbootstrap 99 and F-IG-PT-1.16 isolate was Penicillium charlesii with value of bootstrap 98. From this research, F-IG-KT-540.1 and F-IG-PT 1.16 isolates which have capability to degrade dyes potential for degrading dioxin. Further research is needed to determine the synergy between isolates F-IG-KT-540.1 and F-IG-PT- 1.16 to degrade dioxin., Dioxins are harmful compounds which can damage skin, liver, and cause cancer.It can be degraded by microorganisms such as fungi with its ligninolytic enzymes.The research aim was to obtain fungi that has ligninolytic enzymes whichpotentially degrade dioxin. Activity of ligninolytic enzymes was showed fromdecolorization of Remazol Brilliant Blue R and Poly S-119 dye. Methods of theresearch include selection on solid medium and liquid medium, measurement ofligninolytic activity, and identification of fungal isolates. Selection on solidmedium was carried out using RBBR and Poly S-119 dye. Selection on liquidmedium was carried out through measurement on the color degradation andactivity of ligninolytic enzymes (laccase, manganese peroxidase, and ligninperoxidase). The potential isolates in liquid selection medium were identified on28S rRNA with NL-1 and NL-4 primers. The result showed that nine isolates havethe degradation zone in a solid medium. They were F-IG-KT-540.1; F-IG-KT-539.2; F-IG-PT-6.3; F-IG-PT 1:16; F-IG-PT-2:14; F-IG-PT-2.5; F-IG-PT-2.7; FIG-PT-3.1; and F-IG-PT-2.11. In liquid selection medium, F-IG-KT-540.1 and FIG-PT 1.16 isolates showed high capability to degrade dyes. Percentage of RBBRdegradation in isolate F-IG-KT-540.1 was 59% and percentage of Poly S-119degradation in isolate F-IG-PT-1.16 was 85%. Both F-IG-KT-540.1 and F-IG-PT1.16 isolate have high activity of MnP. Activity of MnP of those isolate were0,0132 and 0,0186 ΔOD/ml/minutes respectively. The result of identificationshowed that F-IG-KT-540.1 isolate was Aspergillus oryzae with value ofbootstrap 99 and F-IG-PT-1.16 isolate was Penicillium charlesii with value ofbootstrap 98. From this research, F-IG-KT-540.1 and F-IG-PT 1.16 isolates whichhave capability to degrade dyes potential for degrading dioxin. Further research isneeded to determine the synergy between isolates F-IG-KT-540.1 and F-IG-PT-1.16 to degrade dioxin.]"
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2015
S61564
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Merianda Ramadhian Putri
"Keberadaan lignin yang dapat menjadi masalah dalam produksi biofuel dapat diatasi dengan cara delignifikasi. Proses delignifikasi menggunakan mikroorganisme telah menjadi perhatian akhir-akhir ini. Mikroorganisme yang berperan adalah jamur pelapuk putih dan bakteri. Dalam melakukan proses biodelignifikasi, kedua mikroorganisme ini menghasilkan enzim ligninolitik. Enzim ligninolitik antara jamur pelapuk putih dan bakteri menghasilkan persentase delignifikasi dan aktivitas enzim yang berbeda. Artikel review ini meninjau ulasan mengenai proses biodelignifikasi menggunakan enzim ligninolitik dari jamur pelapuk putih dan bakteri yang akan dibandingkan antara hasil delignifikasi dan aktivitas enzim. Penulis berharap dapat memberikan gambaran terkait perbandingan antara enzim ligninolitik dari kedua mikroorganisme tersebut.
The existence of lignin which can be a problem in biofuel production can be overcome by delignification. The delignification process using microorganisms has become a concern lately. The microorganisms that play a role are white rot fungi and bacteria. In carrying out the process of biodelignification, these two microorganisms produce ligninolytic enzymes. Ligninolytic enzymes between white rot fungi and bacteria produce different percentages of delignification and enzyme activity. This review article reviews a review of the biodelignification process using ligninolytic enzymes from white rot fungi and bacteria to be compared between the results of delignification and enzyme activity. The author hopes to provide an overview related to the comparison between ligninolytic enzymes of the two microorganisms.
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Depok: Fakultas Farmasi Universitas Indonesia, 2020
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Jessica Jane Judono
"Secara umum, lignoselulosa terdiri dari selulosa, hemiselulosa, dan lignin yang membentuk struktur kompleks yang sulit dihancurkan. Pretreatment bertujuan untuk mendegradasi hemiselulosa dan lignin dari biomassa lignoselulosa serta meningkatkan aksesibilitas enzim ke selulosa yang merupakan bahan baku untuk proses konversi lebih lanjut menjadi produk bernilai tambah. Bahan biomassa memiliki komposisi lignoselulosa yang berbeda-beda yang dapat mempengaruhi proses pretreatment. Masing-masing strategi pretreatment memiliki kelebihan dan keterbatasan tersendiri. Pretreatment biologis merupakan metode yang ramah lingkungan dan hemat energi karena menggunakan mikroorganisme untuk mengatasi sifat rekalsitran biomassa lignoselulosa. Jamur pelapuk putih mampu mendegradasi lignin melalui produksi enzim ligninolitiknya, berupa lakase, lignin peroksidase (LiP), dan mangan peroksidase (MnP). Tujuan penulisan ini adalah memberikan rangkuman penelitian terkait pretreatment biologis menggunakan jamur pelapuk putih dan mekanismenya sebagai mikroorganisme yang dapat mendegradasi lignin. Selain itu, dibahas juga berbagai faktor yang mempengaruhi proses biodelignifikasi. Perlu penelitian lebih lanjut terkait optimalisasi berbagai parameter kondisi kultur agar dapat meningkatkan efisiensi proses pretreatment biologis.
Lignocellulosic biomass mainly consists of cellulose, hemicellulose, and lignin which form complex structures that are difficult to destroy. Pretreatment is significance for the degradation of hemicelluloses and lignin from the lignocellulosic biomass to make cellulose more accessible for further enzymatic process in its conversion into value-added products. Biomass materials have different lignocellulosic compositions which can affect the pretreatment process and requires certain strategy for effective treatment. While each pretreatment strategy has its own strengths and limitations. Biological pretreatment is considered to be an environmentally friendly process with low energy input and low disposal costs for it utilizes lignin-degrading microorganisms to reduce the recalcitrance of lignocellulosic biomass. White rot fungus are able to degrade lignin by producing ligninolytic enzymes, such as laccase, lignin peroxidase (LiP), and manganese peroxidase (MnP). The purpose of this paper is to presents an overview of studies related to biological pretreatment using white rot fungi and its mechanism as a lignin degrading microorganism. In addition, various factors affecting biodelignification process are also discussed. Further research related to parameters optimization of culture conditions is needed in order to increase the efficiency of the biological pretreatment process."
Depok: Fakultas Farmasi Universitas Indonesia, 2020
S70481
UI - Skripsi Membership Universitas Indonesia Library
