| Kode Mata Kuliah | BT5112 / 3 SKS |
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| Penyelenggara | 211 - Biotechnology / SITH |
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| Kategori | Lecture |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Aplikasi Multi Omiks | Multi Omix Application |
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| Bahan Kajian | - Definisi dan ruang lingkup omiks serta peran dan pentingnya studi omiks dalam bioteknologi.
- Genomik: struktur dan fungsi genom (prokariot dan eukariot, teknologi sequencing (sanger sequencing, Next-Generation Sequencing, Third-Generation Sequencing), analisis data genomik.
- Transkriptomik: RNA dan ekspresi gen, teknik analisis transkriptomik (RNA-Seq, qPCR, Microarrays), analisis data transkriptomik.
- Proteomik: struktur dan fungsi Protein, teknologi analisis proteomik (MALDI-TOF, LC-MS/MS, 2D Gel Electrophoresis), analisis data proteomik.
- Metabolomik: profiling metabolit, teknik analisis metabolomik (GC-MS, LC-MS, NMR), analisis data metabolomik
- Epigenomik: modifikasi epigenetik (metilasi DNA, modifikasi histon), teknik analisis epigenomik (ChIP-Seq, Bisulfite Sequencing), analisis Data Epigenomik
- Integrasi data multi omiks: prinsip integrasi data omiks
- Aplikasi Multi Omiks dalam Bioteknologi
| - Definition and scope of omics and the role and importance of omics studies in biotechnology.
- Genomics: genome structure and function (prokaryotes and eukaryotes, sequencing technology (sanger sequencing, Next-Generation Sequencing, Third-Generation Sequencing), genomic data analysis.
- Transcriptomics: RNA and gene expression, transcriptomic analysis techniques (RNA-Seq, qPCR, Microarrays), transcriptomic data analysis.
- Proteomics: Protein structure and function, proteomics analysis technologies (MALDI-TOF, LC-MS/MS, 2D Gel Electrophoresis), proteomics data analysis.
- Metabolomics: metabolite profiling, metabolomics analysis techniques (GC-MS, LC-MS, NMR), metabolomics data analysis.
- Epigenomics: epigenetic modifications (DNA methylation, histone modifications), epigenomic analysis techniques (ChIP-Seq, Bisulfite Sequencing), Epigenomic Data analysis
- Multi omix data integration: the principle of omix data integration
- Multi Omix Application in Biotechnology
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa mampu menjelaskan definisi, jenis-jenis, dan ruang lingkup berbagai disiplin ilmu omiks serta pentingnya dalam bioteknologi.
- Mahasiswa mampu memahami prinsip integrasi data dari berbagai disiplin omiks.
- Mahasiswa mampu mengkategorikan aplikasi multi omiks dalam penelitian kesehatan, agrikultur, industri, lingkungan, dan energi
| - Students are able to explain the definition, types, and scope of various omics disciplines and their importance in biotechnology.
- Students are able to understand the principle of data integration from various omix disciplines.
- Students are able to categorise multi-omics applications in health, agriculture, industry, environment, and energy research.
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| Metode Pembelajaran | Proses belajar dalam kelas, Penugasan terstruktur, Kegiatan mandiri | An in-class learning process, Structured assignments, Independent activities |
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| Modalitas Pembelajaran | Moda penyerapan: Visual, Auditorial
Moda Pelaksanaan: Sinkronous, Asinkronous | Modes of absorption: Visual, Auditorial
Modes of Execution: Synchronous, Asynchronous |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | UTS 30%, UAS 30%, Tugas 20%, Presentasi 20% | Midterm Exam 30%, Final Exam 30%, Assignments 20%. Presentation 20% |
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| Catatan Tambahan | | |
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