细菌交流通过群感效应 - Bonnie Bassler P1
本视频由科普中国和生物医学大讲堂出品
Bonnie Bassler (Princeton) Part 1: Bacterial Communication via Quorum Sensing
Bacteria, primitive single-celled organisms, communicate with chemical languages that allow them to synchronize their behavior and thereby act as enormous multi-cellular organisms. This process is called quorum sensing and it enables bacteria to successfully infect and cause disease in plants, animals, and humans. Investigations of the molecular mechanisms underlying quorum sensing are leading to the development of novel strategies to interfere with quorum sensing. These strategies form the basis of new therapies to be used as antibiotics. See more at http://www.ibioseminars.org
霍乱弧菌群体感应和新型抗生素 - Bonnie Bassler P2
本视频由科普中国和生物医学大讲堂出品
Bonnie Bassler (Princeton) Part 2: Vibrio Cholerae Quorum Sensing and Novel Antibiotics
Bacteria, primitive single-celled organisms, communicate with chemical languages that allow them to synchronize their behavior and thereby act as enormous multi-cellular organisms. This process is called quorum sensing and it enables bacteria to successfully infect and cause disease in plants, animals, and humans. Investigations of the molecular mechanisms underlying quorum sensing are leading to the development of novel strategies to interfere with quorum sensing. These strategies form the basis of new therapies to be used as antibiotics. See more at http://www.ibioseminars.org
细胞粘附、信号和癌症 - Mary Beckerle P1
本视频由科普中国和生物医学大讲堂出品
Mary Beckerle (University of Utah) Part 1: Adhesion, Signaling and Cancer
Cell-substratum adhesion is mediated by integrins, a family of transmembrane, heterodimeric, extracellular matrix receptors that are concentrated at focal adhesions. Integin engagement influences a variety of signaling pathways and regulates cell behaviors including motility, proliferation, and survival. Disturbance of normal integrin function is associated with a variety of pathologic conditions including cancer. In the first segment of my seminar, I provide a broad overview of the cancer problem for a lay audience. Advances in our understanding of cancer as a genetic disease are discussed. The influence of cell adhesion on control of cell growth is reviewed. See more at http://www.ibiology.org
粘着蛋白的发现和表征 - Mary Beckerle P2
本视频由科普中国和生物医学大讲堂出品
Mary Beckerle (University of Utah) Part 2: Discovery and Characterization
In the second segment, I describe the identification of the focal adhesion protein, zyxin, by my lab. Recent work revealed that zyxin is down-regulated upon expression of the Ewing sarcoma oncoprotein, EWS-FLI. Loss of zyxin expression results in enhanced cell motility and is also associated with failed apoptotic signaling. Evidence that zyxin shuttles between focal adhesions and the nucleus is presented. The impact of reduced zyxin expression on tumor progression is discussed. See more at http://www.ibiology.org
焦点粘连作为压力传感器 - Mary Beckerle P3
本视频由科普中国和生物医学大讲堂出品
Mary Beckerle (University of Utah) Part 3: Focal Adhesions as Stress Sensors
In the third segment of my seminar, I address a new frontier in cell biology, that is how cells respond to mechanical information. Cells and tissues are exposed to physical forces in vivo and excessive mechanical stress leads to a variety of pathological consequences. I describe a system for exposing cells to controlled mechanical stress and discuss the stretch response. We have discovered that the focal adhesion protein, zyxin, is exquisitely sensitive to mechanical stimulation and is required for the ability of cells to reinforce the actin cytoskeleton when challenged by exposure to cyclic stretch. See more at http://www.ibiology.org
化学糖生物学 - Carolyn Bertozzi P1
本视频由科普中国和生物医学大讲堂出品
Carolyn Bertozzi (UC Berkeley) Part 1: Chemical Glycobiology
Part 1 A large part of an organism's complexity is not encoded by its genome but results from post-translational modification. Glycosylation, or the addition of sugar molecules to a protein is an example of such a modification. These sugars, or glycans, are often complex, branched molecules specific to particular cells. Cell surface glycans determine human blood types, allow viral infections and play a key role in tissue inflammation. See more at http://www.ibioseminars.org
生物糖组成像方法 - Carolyn Bertozzi P2
本视频由科普中国和生物医学大讲堂出品
Carolyn Bertozzi (UC Berkeley) Part 2: Imaging the Glycome
Since glycans cannot be labeled with genetically-encoded reporters such as GFP, bioorthoganal reactions have been developed to allow their labeling and imaging. In this lecture, Bertozzi describes the chemistry and imaging methodology used to view glycoproteins in cells and whole organisms. See more at http://www.ibioseminars.org
端粒和端粒酶的作用 - Elizabeth Blackburn P1
本视频由科普中国和生物医学大讲堂出品
Elizabeth Blackburn (UCSF) Part 1: The Roles of Telomeres and Telomerase
Lecture Overview
Telomerase, a specialized ribonucleprotein reverse transcriptase, is important for long-term eukaryotic cell proliferation and genomic stability, because it replenishes the DNA at telomeres. Thus depending on cell type telomerase partially or completely (depending on cell type) counteracts the progressive shortening of telomeres that otherwise occurs. Telomerase is highly active in many human malignancies, and a potential target for anti-cancer approaches. Furthermore, recent collaborative studies have shown the relationship between accelerated telomere shortening and life stress and that low telomerase levels are associated with six prominent risk factors for cardiovascular disease.
端粒和端粒酶在人类干细胞和癌症中的作用 - Elizabeth Blackburn P2
本视频由科普中国和生物医学大讲堂出品
Elizabeth Blackburn (UCSF) Part 2: Telomeres and Telomerase in Human Stem Cells and in Cancer
Telomerase, a specialized ribonucleprotein reverse transcriptase, is important for long-term eukaryotic cell proliferation and genomic stability, because it replenishes the DNA at telomeres. Thus depending on cell type telomerase partially or completely (depending on cell type) counteracts the progressive shortening of telomeres that otherwise occurs. Telomerase is highly active in many human malignancies, and a potential target for anti-cancer approaches. Furthermore, recent collaborative studies have shown the relationship between accelerated telomere shortening and life stress and that low telomerase levels are associated with six prominent risk factors for cardiovascular disease.
头足纲动物的伪装和信号 - Roger Hanlon P1
本视频由科普中国和生物医学大讲堂出品
Roger Hanlon (MBL) Part 1: Camouflage and Signaling in Cephalopods
Hanlon introduces the amazing adaptive coloration of cephalopods. He uses video and still photography to showcase their ability to rapidly change color, pattern and skin texture with fine control and a diversity of appearances, to produce camouflage or to send signals. He argues that all camouflage patterns in nature can be grouped into three types. In part 2, Hanlon shows us results from his lab that make a convincing case that the rapid adaptive coloration of cephalopods is controlled by their visual system; quite impressive for a color-blind animal! Part 3 focuses on the unique skin of cephalopods including the system of pigments and reflectors that allows it to quickly change to any hue and contrast, and the papillae musculature that allows the skin to deform and create multiple 3D textures.