植物分子生物学
课程编码:1801010710I0P1002Y
英文名称:Plant Molecular Biology and Genomics
课时:60
学分:3.00
课程属性:学科核心课
主讲教师:景海春等
教学目的要求
This course invites laboratory researchers from Institute of Botany, Chinese Academy of Sciences to share their cutting-edge knowledge in plant molecular biology and genomics.
This course will explain the concepts of genes, genomes and epigenomes, as well as theoretical and experimental tools/platforms to explore their variation, functions, interactions and regulatory networks, in the context of plant species formation and evolution, growth and development and adaptation to the environment. Emphasis will also be placed on how to transform the knowledge gained from basic science into plant breeding. This course focuses more on how to rationalize, design and implement scientific research, rather than instilling vocabulary into participants.
We encourage active search for answers rather than rote learning, and indeed require participants to have at least a university-level education in plant biology and related fields.
预修课程
无
大纲内容
第一章 The Gene and Genetics 3.0学时 景海春
第1节 General description of genetics and genes
第2节 Experimental approaches for gene cloning and functional analysis
第3节 Examples of genes with important functions in plants
第二章 The Genome and Genomics 3.0学时 景海春
第1节 Concept and history
第2节 Genomics technologies
第3节 Genomics and structural genomics
第4节 Genome research in plants
第三章 Functional Genomics 6.0学时 景海春
第1节 Functional genomics
第2节 Association mapping
第3节 Genome-wide association study
第4节 Genome-editing
第5节 Virus-induced gene silencing
第四章 Epigentics and Epigenomics 3.0学时 景海春
第1节 Concepts and history
第2节 Types of epigenetics
第3节 Genome landscape and inheritance of epigenetic variation
第4节 Epigenomic research in plants
第五章 Crop Domestication 3.0学时 景海春
第1节 Concepts and general description
第2节 Main features of crop domestication
第3节 Models of domestication
第4节 Domestication genomics of major crops
第六章 Plant Germplasm Evaluation, Maintenance, and Utilisation 3.0学时 景海春
第1节 Concepts and general description
第2节 Maintenance and conservation
第3节 Evaluation and utilisation
第4节 Challenges for the future
第七章 Plant Breeding 3.0学时 景海春
第1节 Molecular-marker assistant breeding/selection
第2节 Biotechnology breeding
第3节 Breeding by genome selection
第4节 Crop designing by molecular modules
第5节 Future crop design
第八章 Molecular Biology of Photomorphogenesis and Light Signaling (1) 3.0学时 林荣呈
第1节 Light signaling pathways
第2节 Photoreceptors and their functions
第九章 Molecular Biology of Photomorphogenesis and Light Signaling (2) 3.0学时 林荣呈
第1节 COP1 and its regulatory mechanism
第2节 Powerful roles of the PIF proteins
第十章 Molecular Biology of Photomorphogenesis and Light Signaling (3) 3.0学时 林荣呈
第1节 How to study new genes in light signaling?
第十一章 Plant Circadian Molecular system and epigenetic control (Part I) 3.0学时 王雷
第1节 Circadian clock
第十二章 Plant Circadian Molecular System and Development (Part II) 3.0学时 王雷
第1节 Zeitgeber Time vs Circadian Time
第十三章 Plant Circadian Molecular System and Development (Part III) 3.0学时 王雷
第1节 Plant Circadian Molecular System and Development (Part III)
第十四章 Plant Circadian Molecular System and Development (Part IV) 3.0学时 王雷
第1节 Environmental signals are integrated by the central oscillator to coordinate multiple physiological processes
第十五章 Plant Molecular Biology and Genomics - Plant genome and evolution 1 3.0学时 郭亚龙
第1节 Phenotypic variation
第2节 Quantitative genetics: basic principles
第3节 Fitness of phenotypic variation
第十六章 Plant Molecular Biology and Genomics - Plant genome and evolution 2 3.0学时 郭亚龙
第1节 What is genome
第2节 The contentof genome and how it evolves
第3节 What is the advances of genomics?
第十七章 Plant Molecular Biology and Genomics - Plant genome and evolution 3 3.0学时 郭亚龙
第1节 Methods to study genome evolution
第2节 Examplesof comparativegenomics
第3节 Examplesof population genomics
第十八章 Plant Molecular Biology and Genomics - Plant genome and evolution 4 3.0学时 郭亚龙
第1节 What is biodiversity?
第2节 Why biodiversity matters?
第3节 What is evolutionary biology?
第4节 Why evolutionary biology important?
参考书
课程教师信息
Prof.JING Haichun et al.