生物与生命科学 公开课(进行中) |
字母序 | 将开始 | 进行中 |
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Chicken Behaviour and Welfare (CourseraArchive) 0 个评论 关注 开始时间: 04/22/2022 持续时间: Unknown 主页: https://www.coursera.org/course/chickens 简介: This course will explain the general principles of chicken behaviour and welfare, and the behavioural and physiological indicators that can be used to assess welfare in chickens kept in hobby flocks through to commercial farms. |
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流行病学 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/HKUx/HKU01x/_/about 简介: 探索流行病的相关科学,防范,以及控制 |
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人类健康和全球环境变化 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/HarvardX/PH278x/_/about 简介: PH278x 课程研究全球环境的变化,研究其成因,及其对人类健康的影响,并让学生参与思考它们的解决方案。 |
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服用药物——药品开发的影响 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/UTAustinX/UT.4.01x/_/about 简介: 发现药品开发的影响并成为知情的消费者或科学家。 |
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数字中的健康:临床和公共健康研究中的量化方法 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/HarvardX/PH207x/_/about 简介: PH207x 课程是哈佛大学公共卫生学院的流行病学和生物统计学课程资料的在线改编版。 |
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医疗保健体系中的实效性随机对照临床试验 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/KIx/KIPractihx/_/about 简介: 实效性随机对照临床试验可以可靠地研究出哪些医疗干预在现实世界条件下可以最好地发挥作用。 |
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神经动力学——神经元计算神经科学 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/EPFLx/BIO465X/_/about 简介: 通过数学神经元模型,以不同的细节程度,描述大脑的神经元活动,以及这些神经元所用编码。 |
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自然灾害 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/McGillX/ATOC185x/_/about 简介: 本课程是研究不同类型灾害背后的科学,以及我们控制或预测这类事件的能力或局限。 |
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生物医学成像导论 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/UQx/BIOIMG101x/_/about 简介: 研究生物医学成像技术如何起到辅助作用,以及他们为卫生健康专业人员会提供哪些信息。 |
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人类进化导论 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/WellesleyX/ANTH207x/_/about 简介: 通过对人类化石、考古和基因记录对人类进化史进行综述。 |
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免疫学基础,第一部分 (学堂在线) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://xuetangx.com//courses/RiceX/BIOC372.1x/_/about 简介: 学习你的身体如何抵御疾病:它如何识别威胁并组织反击。 |
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The Challenges of Global Health (CourseraArchive) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 5 weeks 主页: https://www.coursera.org/course/challengesgh 简介: An introduction to key challenges and concepts important to understanding the current status and determinants of global health. |
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DNA Wars: How the Cell Strikes Back to Avoid Disease after Attacks on DNA (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: A never-ending molecular war takes place in the nucleus of your cells, with DNA damage occurring at a rate of over 20,000 lesions per cell per day. Where does this damage come from, and what are its consequences? What are the differences in the molecular blueprint between individuals who can sustain attacks on DNA and remain healthy compared to those who become sick? |
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Experimental Methods in Systems Biology (CourseraArchive) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 8 weeks 主页: https://www.coursera.org/course/expmethods 简介: The course will introduce students to the technologies underlying high throughput experimentation used in systems biology. |
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Computational Functional Genomics (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-90j-computational-functional-genomics-spring-2005 简介: The course focuses on casting contemporary problems in systems biology and functional genomics in computational terms and providing appropriate tools and methods to solve them. Topics include genome structure and function, transcriptional regulation, and stem cell biology in particular; measurement technologies such as microarrays (expression, protein-DNA interactions, chromatin structure); statistical data analysis, predictive and causal inference, and experiment design. The emphasis is on coupling problem structures (biological questions) with appropriate computational approaches. |
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Protein Folding Problem (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-88j-protein-folding-problem-fall-2007 简介: This course focuses on the mechanisms by which the amino acid sequence of polypeptide chains (proteins), determine their three-dimensional conformation. Topics in this course include sequence determinants of secondary structure, the folding of newly synthesized polypeptide chains within cells, folding intermediates aggregation and competing off-pathway reactions, and the unfolding and refolding of proteins |
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Concept-Centered Teaching (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-391-concept-centered-teaching-spring-2006 简介: Do you like teaching, but find yourself frustrated by how little students seem to learn? Would you like to try teaching, but are nervous about whether you will be any good at it? Are you interested in new research on science education? Research in science education shows that the greatest obstacle to student learning is the failure to identify and confront the misconceptions with which the students enter the class or those that they acquire during their studies. This weekly seminar course focuses on developing the participants' ability to uncover and confront student misconceptions and to foster student understanding and retention of key concepts. Participants read primary literature on science education, uncover basic concepts often overlooked when teaching biology, and lead a small weekly discussion session for students currently enrolled in introductory biology classes. |
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Cellular Garbage Disposal: Misfolded Proteins in Normal Biology and Human Disease (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: The endoplasmic reticulum (ER) orchestrates different cellular processes by which proteins are synthesized, correctly folded, modified and ultimately transported to their final destinations. As part of this crucial biosynthetic process, proteins that are not properly folded and consequently detrimental to normal cellular function are constantly generated. A common signature of many neurodegenerative diseases, including Alzheimer's and Parkinson's, is accumulation and deposition of misfolded proteins that arise when the ability of cells to deal with the burden of misfolded proteins is compromised. In this course, we will explore how the ER quality control machinery ensures that only properly assembled proteins exit the ER while distinguishing between nascent proteins en route to their biologically active folded state from those that are terminally misfolded. |
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Evolution of the Immune System (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-345-evolution-of-the-immune-system-spring-2005 简介: In this course, evolutionary pathways that have led to the development of innate and adaptive immunity are analyzed, the conserved and unique features of the immune response from bacteria to higher vertebrates is traced, and factors, such as adaptive changes in pathogens that have shaped the evolution of immune system are identified. |
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Vascular Development in Life, Disease and Cancer Medicine (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: The growth of blood vessels, a process known as angiogenesis, is one of the earliest events in mammalian development and is regulated by a sensitive interplay of growth factors and other molecules. |
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Tumor Suppressor Gene p53: How the Guardian of our Genome Prevents Cancer (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: Cancer is a leading cause of death worldwide. Cancer involves uncontrolled cell growth, resistance to cell death, failure to differentiate into a particular cell type, and increased cellular motility. A family of gate-keeper genes, known as tumor suppressor genes, plays important roles in preventing the initiation and progression of cancer. Among these, p53 is the most famous. Because of its essential role in maintaining genomic integrity, p53 is often called the guardian of the genome. During this course, we will study how p53 serves as a pivotal tumor suppressor gene in preventing cancer. |
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Protein Folding, Misfolding and Human Disease (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-343-protein-folding-misfolding-and-human-disease-fall-2004 简介: This course is one of many |
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A Love-Hate Relationship: Cholesterol in Health and Disease (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: In this class, we will examine cholesterol's role in the cell and in the body as a whole, from its function as a structural component of the membrane to its function in signaling. We will discuss mechanisms of cholesterol sensing, mechanisms of feedback regulation in cells, cholesterol in the brain, cholesterol in the circulation, 'good cholesterol' and 'bad cholesterol,' cholesterol-related human disorders, and the drugs that deal with some of these disorders. |
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The Radical Consequences of Respiration: Reactive Oxygen Species in Aging and Disease (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: This course will start with a survey of basic oxygen radical biochemistry followed by a discussion of the mechanisms of action of cellular as well as dietary antioxidants. After considering the normal physiological roles of oxidants, we will examine the effects of elevated ROS and a failure of cellular redox capacity on the rate of organismal and cellular aging as well as on the onset and progression of several major diseases that are often age-related. Topics will include ROS-induced effects on stem cell regeneration, insulin resistance, heart disease, neurodegenerative disorders, and cancer. The role of antioxidants in potential therapeutic strategies for modulating ROS levels will also be discussed. |
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Network Medicine: Using Systems Biology and Signaling Networks to Create Novel Cancer Therapeutics (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: In this course, we will survey the primary systems biology literature, particularly as it pertains to understanding and treating various forms of cancer. We will consider various computational and experimental techniques being used in the field of systems biology, focusing on how systems principles have helped advance biological understanding. We will also discuss the application of the principles of systems biology and network biology to drug development, an emerging discipline called "network medicine." |
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Cancer Biology: From Basic Research to the Clinic (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-342-cancer-biology-from-basic-research-to-the-clinic-fall-2004 简介: This course is one of many |
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Systems and Synthetic Biology: How the Cell Solves Problems (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: A millennial challenge in biology is to decipher how vast arrays of molecular interactions inside the cell work in concert to produce a cellular function. Systems biology, a new interdisciplinary field of science, brings together biologists and physicists to tackle this grand challenge through quantitative experiments and models. In this course, we will discuss the unifying principles that all organisms use to perform cellular functions. We will also discuss key challenges faced by a cell in both single and multi-cellular organisms. Finally, we will discuss how researchers in the field of synthetic biology are using the new knowledge gained from studying naturally-occurring biological systems to create artificial gene networks capable of performing new functions. |
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Powerhouse Rules: The Role of Mitochondria in Human Diseases (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: The primary role of mitochondria is to produce 90% of a cell's energy in the form of ATP through a process called oxidative phosphorylation. A variety of clinical disorders have been shown to include "mitochondrial dysfunction," which loosely refers to defective oxidative phosphorylation and usually coincides with the occurrence of excess Reactive Oxygen Species (ROS) production, placing cells under oxidative stress. A known cause and effect of oxidative stress is damage to and mutation of mitochondrial DNA. We will use this class to explore issues relating to mitochondrial DNA integrity and how it can be damaged, repaired, mutated, and compromised in human diseases. |
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The X in Sex: A Genetic, Medical, and Evolutionary View of the X Chromosome (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: This course will explore a diverse collection of striking biological phenomena associated with the X chromosome. We will examine the genetic basis and significance of several X-linked mutations. We will also discuss why men are more likely than women to display X-linked traits. We will look at the different mechanisms by which X chromosome gene expression is equalized in mammals, flies, and worms and how these mechanisms can yield unusual phenotypes. Throughout our discussions of the X chromosome we will use both recent and classic primary research papers to learn about this chromosome's fascinating biology. |
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Harnessing the Biosphere: Natural Products and Biotechnology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: What do the organisms of the biosphere, specifically microorganisms, have to offer to biotechnological endeavors? In this course we will focus on the production of biomolecules using microbial systems. We will discuss potential growth substrates (such as agricultural waste and carbon dioxide) that can be used and learn about both established and cutting-edge manipulation techniques in the field of synthetic biology. We will also cover the production of biofuels, bioplastics, amino acids (e.g. lysine), food additives (e.g. monosodium glutamate, MSG), specialty chemicals (e.g. succinate), and biopharmaceuticals (e.g. plasmids for gene therapy). |
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Nano-life: An Introduction to Virus Structure and Assembly (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: Watson and Crick noted that the size of a viral genome was insufficient to encode a protein large enough to encapsidate it and reasoned, therefore that a virus shell must be composed of multiple, but identical subunits. Today, high resolution structures of virus capsids reveal the basis of this genetic economy as a highly symmetrical structure, much like a geodesic dome composed of protein subunits. Crystallographic structures and cryo-electron microscopy reconstructions combined with molecular data are beginning to reveal how these nano-structures are built. Topics covered in the course will include basic principles of virus structure and symmetry, capsid assembly, strategies for enclosing nucleic acid, proteins involved in entry and exit, and the life cycles of well understood pathogens such as HIV, influenza, polio, and Herpes. A review of cutting edge structural methods is also covered. |
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Regenerative Medicine: from Bench to Bedside (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-340-regenerative-medicine-from-bench-to-bedside-spring-2010 简介: Regenerative medicine involves the repair and regeneration of tissues for therapeutic purposes, such as replacing bone marrow in leukemia, cartilage in osteoarthritis or cells of the heart after a heart attack. |
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Unusual Biology: The Science of Emerging Pathogens (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: Infectious diseases represent a serious global public health problem. They have the potential to kill millions of people, whether they emerge naturally as outbreaks or pandemics, or deliberately through bioterrorism. Some examples of diseases caused by emerging pathogens are the Bubonic Plague, Toxoplasmosis, African Sleeping Sickness, and Chagas Disease. Each day, infectious disease scientists serve on the front lines protecting us from such threats. In this course students will learn how to design and critique experiments through the discussion of primary research articles that explore the molecular basis of disease caused by emerging pathogens. |
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Developmental Biology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-22-developmental-biology-fall-2005 简介: This graduate and advanced undergraduate level lecture and literature discussion course covers the current understanding of the molecular mechanisms that regulate animal development. Evolutionary mechanisms are emphasized as well as the discussion of relevant diseases. Vertebrate (mouse, chick, frog, fish) and invertebrate (fly, worm) models are covered. Specific topics include formation of early body plan, cell type determination, organogenesis, morphogenesis, stem cells, cloning, and issues in human development. |
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Cellular Neurobiology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-29j-cellular-neurobiology-spring-2012 简介: This course serves as an introduction to the structure and function of the nervous system. Emphasis is placed on the cellular properties of neurons and other excitable cells. Topics covered include the structure and biophysical properties of excitable cells, synaptic transmission, neurochemistry, neurodevelopment, and the integration of information in simple systems and the visual system. |
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Topics in Experimental Biology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-18-topics-in-experimental-biology-fall-2005 简介: This independent experimental study course is designed to allow students with a strong interest in independent research to fulfill the project laboratory requirement for the Biology Department Program in the context of a research laboratory at MIT. The research should be a continuation of a previous project under the direction of a member of the Biology Department faculty. |
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Experimental Microbial Genetics (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-13-experimental-microbial-genetics-fall-2008 简介: In this class, students engage in independent research projects to probe various aspects of the physiology of the bacterium |
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Genetics (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-03-genetics-fall-2004 简介: This course discusses the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans. The topics include: structure and function of genes, chromosomes and genomes, biological variation resulting from recombination, mutation, and selection, population genetics, use of genetic methods to analyze protein function, gene regulation and inherited disease. |
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Foundations of Computational and Systems Biology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 简介: The MIT Initiative in Computational and Systems Biology ( |
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Introductory Biology (MIT公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 未知 主页: http://ocw.mit.edu/courses/biology/7-013-introductory-biology-spring-2013 简介: The MIT Biology Department core courses, |
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Marine Megafauna: An Introduction to Marine Science and Conservation (CourseraArchive) 0 个评论 关注 开始时间: 04/22/2022 持续时间: Unknown 主页: https://www.coursera.org/course/megafauna 简介: An introduction to the basics of marine science and conservation, brought to you with the help of the most compelling creatures in the ocean and outstanding open access science. |
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综合生物学_全39集_网易公开课 (Code School) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 加州大学伯克利分校公开课:综合生物学 主页: http://v.163.com/special/opencourse/generalbiology.html 简介: 加州大学伯克利分校公开课:综合生物学 |
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The Brain and Space (CourseraArchive) 1 个评论 关注 开始时间: 04/22/2022 持续时间: 6 weeks 主页: https://www.coursera.org/course/brainspace 简介: This course is about how detective work by the brain creates our sense of spatial location from a variety of sensory and motor sources, and how this spatial sense in turn shapes our cognitive abilities. |
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西雅图太平洋大学公开课:婴儿大脑规则 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 西雅图太平洋大学公开课:婴儿大脑规则 主页: http://v.163.com/special/opencourse/brainrulesforbaby.html 简介: 本系列主要介绍了约翰·梅迪纳博士所著的《婴儿大脑规则》一书,通过十六个章节的分述,系统性的讲解的婴儿大脑发育及成长的整个过程,讲述了婴儿从母体中到分娩之后,再到5岁之前的成长期,每个阶段的大脑的构造发育、营养补给、以及智力培养等知识,也同时指出了很多关于婴儿大脑发育期传统观念上的误区,并一一做出来解答。本书的重点是讲解1到5岁之间,父母对孩子大脑发育的引导方式,通过一系列实例论证和数据参考,得出了感情植入法的柔性引导路径,将成为年轻父母对新生儿智力开发的良好指引。敬请关注! |
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斯坦福大学公开课:从生物学看人类行为 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 斯坦福大学公开课:从生物学看人类行为 主页: http://v.163.com/special/opencourse/humanbehavioral.html 简介: 介绍如何从生物学角度看待复杂的人类行为,包括正常行为和异常行为。综合生物社会学、动物行动学、神经科学和内分泌学来研究人类的各种行为,如攻击性、性行为、精神病等。 |
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西雅图太平洋大学公开课:大脑规则 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 西雅图太平洋大学公开课:大脑规则 主页: http://v.163.com/special/opencourse/brainrule.html 简介: 本课中,John Medina博士提出了12条大脑原则,内容包括:运动对大脑效能有相当显着的提升效果,想要变得更聪明,就要在会议或工作等行程之中,排入运动的时间,你的思绪将会变得更清晰;人脑一次只能记住7项事物,而且只能维持30秒左右,因此要学习东西,就要一再重复;如果想记住某件事,就要定期重复接触这件事。人脑需要多年的时间才能牢牢记住一件事,所以要持续接触等等。 |
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麻省理工学院公开课:生物学导论 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 麻省理工学院公开课:生物学导论 主页: http://v.163.com/special/opencourse/introductionbiology.html 简介: 本课程提供一套完整的课程视频,授课者有麻省理工学院Broad研究所主任以及人类基因组计划主要负责人埃里克兰德尔教授和温伯格罗伯特教授,他是1997年美国国家科学奖章得主。 这些入门生物学课程教育发展努力是由霍华德休斯医学研究所教育集团在麻省理工学院进行了多项活动之一。这个小组的重点课程建立在生物学课程的本科教学工具的开发工作。 |
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华中农业大学公开课:基因的奥秘 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 5 videos 主页: http://v.163.com/special/cuvocw/jiyindeaomi.html 简介: 基因是遗传的物质基础,生物体的生、长、病、老、死等一切生命现象都与基因密切相关。《基因的奥秘》以基因为主线,围绕基因的概念、基因的复制、基因控制性状的表达等基因的三个基本分子属性而展开,深入浅出地介绍了基因的本质及其在调控生命活动的重要作用。讲授中体现“教渔与授鱼”的理念,给予与启发相结合,力求在基本概念与逻辑分析上做到清晰明了,富于启迪,形成特色,是一部知识性与通俗性兼备的优秀视频教材。 |
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加州大学伯克利分校公开课:综合生物学 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 39 videos 主页: http://v.163.com/special/sp/generalbiology.html 简介: 加州大学伯克利分校公开课:综合生物学 |
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可汗学院公开课:生物学 (网易公开课) 0 个评论 关注 开始时间: 04/22/2022 持续时间: 62 videos 主页: http://v.163.com/special/Khan/khanbiology.html 简介: 可汗学院生物学的主要的内容是高中的生物课程,可能会稍微附带一点大学一年级的内容。主要主题包括:进化与自然选择,物种多样性,细菌与病菌,细胞呼吸,光合作用,各种细胞的作用,神经,器官和人体几大系统等。 |
