國立中興大學教學大綱
課程名稱 (中) 多體學於生技研發之應用(6381)
(Eng.) Application of Multi-omics in Biotechnology Research and Development
開課單位 生技所
課程類別 選修 學分 3 授課教師 童鈺棠
選課單位 生技所 / 碩士班 授課使用語言 英文 英文/EMI N 開課學期 1122
課程簡述 本課程目標為讓同學瞭解「後基因體時代」中多體學的內涵與應用,利用多體學研究如何廣泛應用生物技術與大數據分析於農業及生物醫藥相關研究,以深入淺出的方式引導學生修習課程,培養同學跨領域優勢與多元核心職能,能掌握時代的脈動,提升學生競爭力。由於多體學的發展,微生物體(Microbiome)是以「基因體」為角度論述微生物相即可稱為微生物體,隨著高通量定序的效率和成本的大幅下降,微生物體亦成為目前相當熱門的研究。因此,本課程首先將介紹各種能夠快速分析及鑑定所有蛋白質、代謝物及腸道菌的方法,接著介紹如何由蛋白質及代謝物分析的結果,利用生物資訊學的方法,進一步推演出整個生物體路徑靜態及動態的變化及腸道菌與代謝物之關聯性。本課程之目的在於使生物科技學生,能夠同時且深入地認識目前多體學的研究現況。期許學生能將本學門的理念套用在其各自的生物科技研究範疇中。
The objective of this course is to familiarize students with the concept and applications of multi-omics in the "post-genomics era", utilizing multi-omics research to broadly apply biotechnology and big data analysis in agriculture and biomedicine-related research. Through an approachable teaching method, the course aims to guide students in their studies, fostering interdisciplinary advantages and diverse core competencies, enabling them to grasp the pulse of the era and enhance their competitiveness. With the development of multi-omics, the microbiome, discussed from a genomic perspective, has become a hot research topic, especially with the significant decrease in the cost and increase in the efficiency of high-throughput sequencing. Therefore, the course will initially introduce various methods for rapid analysis and identification of all proteins, metabolites, and gut microbiota, followed by an introduction on how to further deduce the static and dynamic changes of the entire organism's pathways and the relationship between gut microbiota and metabolites based on the analysis of proteins and metabolites, using bioinformatics. The purpose of this course is to enable biotechnology students to deeply and concurrently understand the current state of multi-omics research, hoping that students can apply the philosophy of this discipline in their respective biotechnological research areas.
先修課程名稱
課程含自主學習 N
課程與核心能力關聯配比(%) 課程目標之教學方法與評量方法
課程目標 核心能力 配比(%) 教學方法 評量方法
使學生瞭解基因體、蛋白質體、代謝體與腸道菌相,以更能掌握多體學分析方法於農業及生物醫藥相關的應用。
To enable students to understand genomics, proteomics, metabolomics, and the gut microbiome, so they can better grasp the applications of multi-omics analysis methods in agriculture and biopharmaceuticals.
專題探討/製作
網路/遠距教學
討論
講授
書面報告
出席狀況
口頭報告
作業
授課內容(單元名稱與內容、習作/每週授課、考試進度-共18週)
週次 授課內容
第1週 Introduction
第2週 Pre-processing of proteins
第3週 Data analysis in proteomics
第4週 The application of proteomics in biomedicine
第5週 The application of proteomics in agriculture
第6週 Pre-processing of metabolites
第7週 Identification and quantitative analysis of metabolites
第8週 Data analysis in metabolomics
第9週 The application of metabolomics in biomedicine
第10週 The application of metabolomics in agriculture
第11週 Midterm report
第12週 Gut microbiota analysis
第13週 Gut microbial metabolites: short-chain fatty acids and bile acids
第14週 Gut microbial metabolites: short-chain fatty acids and bile acids
第15週 Applications of multi-omics in translational medicine
第16週 Applications of multi-omics in translational medicine
第17週 Final exam
第18週 Final report
學習評量方式
程評分方式包括出席率(40%)、期末考試(40%)及個人報告(30%)。
The course grading method includes attendance (40%), final exam (40%), and individual report (30%).
教科書&參考書目(書名、作者、書局、代理商、說明)
1. Tomita M. and Nishioka T. (Eds) (2005) Metabolomics – The Frontier of Systems Biology. Springer, NY, USA.
2. Lindon J. C., Nicholson J. K. and Holmes E. (Eds) (2006) The Handbook of Metabonomics and Metabolomics. Elsevier, Amsterdam, The Netherlands.
3. Westermeier R. and Naven T. (2001) Proteomic in Practice. Winhein: Wiley-VCH verlan GmbH.
4. Lievler D. C. (2002) Introduction to Proteomics. Humana press Totowa, NJ.
5. The latest academic journal publication data.
課程教材(教師個人網址請列在本校內之網址)

課程輔導時間
星期一至五 9:00-17:00
Monday to Friday, 9:00 AM to 5:00 PM
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