RSS Feed for molecular machines https://solvonauts.org/%3Faction%3Drss_search%26term%3Dmolecular+machines RSS Feed for molecular machines 5.08J Biological Chemistry II (MIT) 5.08J Biological Chemistry II (MIT) This course deals with a more advanced treatment of the biochemical mechanisms that underlie biological processes Emphasis will be given to the experimental methods used to unravel how these processes fit into the cellular context as well as the coordinated regulation of these processes Topics include macromolecular machines for energy and force transduction regulation of biosynthetic and degradative pathways and the structure and function of nucleic acids This course deals with a more advanced treatment of the biochemical mechanisms that underlie biological processes Emphasis will be given to the experimental methods used to unravel how these processes fit into the cellular context as well as the coordinated regulation of these processes Topics include macromolecular machines for energy and force transduction regulation of biosynthetic and degradative pathways and the structure and function of nucleic acids http://ocw.mit.edu/courses/chemistry/5-08j-biological-chemistry-ii-spring-2004 http://ocw.mit.edu/courses/chemistry/5-08j-biological-chemistry-ii-spring-2004 7.349 Biological Computing: At the Crossroads of Engineering and Science (MIT) 7.349 Biological Computing: At the Crossroads of Engineering and Science (MIT) Imagine you are a salesman needing to visit 100 cities connected by a set of roads Can you do it while stopping in each city only once Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn In 1994 Leonard Adleman published a paper in which he described a solution using the tools of molecular biology for a smaller 7 city example of this problem His paper generated enormous scientific and public interest and kick started the field of Biological Computing the main subject of this discussion based seminar course Students will analyze the Adleman paper and the papers that preceded and followed it with an eye for identifying the engineering and scientific aspects of Imagine you are a salesman needing to visit 100 cities connected by a set of roads Can you do it while stopping in each city only once Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn In 1994 Leonard Adleman published a paper in which he described a solution using the tools of molecular biology for a smaller 7 city example of this problem His paper generated enormous scientific and public interest and kick started the field of Biological Computing the main subject of this discussion based seminar course Students will analyze the Adleman paper and the papers that preceded and followed it with an eye for identifying the engineering and scientific aspects of http://ocw.mit.edu/courses/biology/7-349-biological-computing-at-the-crossroads-of-engineering-and-science-spring-2005 http://ocw.mit.edu/courses/biology/7-349-biological-computing-at-the-crossroads-of-engineering-and-science-spring-2005 5.08J Biological Chemistry II (MIT) This course deals with a more advanced treatment of the biochemical mechanisms that underlie biological processes Emphasis will be given to the experimental methods used to unravel how these processes fit into the cellular context as well as the coordinated regulation of these processes Topics include macromolecular machines for energy and force transduction regulation of biosynthetic and degradative pathways and the structure and function of nucleic acids http://www.core.org.cn/OcwWeb/Chemistry/5-08JSpring2004/CourseHome/index.htm http://www.core.org.cn/OcwWeb/Chemistry/5-08JSpring2004/CourseHome/index.htm 5.08J Biological Chemistry II (MIT) This course deals with a more advanced treatment of the biochemical mechanisms that underlie biological processes Emphasis will be given to the experimental methods used to unravel how these processes fit into the cellular context as well as the coordinated regulation of these processes Topics include macromolecular machines for energy and force transduction regulation of biosynthetic and degradative pathways and the structure and function of nucleic acids https://ocw.mit.edu/courses/chemistry/5-08j-biological-chemistry-ii-spring-2004 https://ocw.mit.edu/courses/chemistry/5-08j-biological-chemistry-ii-spring-2004 7.349 Biological Computing: At the Crossroads of Engineering and Science (MIT) Imagine you are a salesman needing to visit 100 cities connected by a set of roads Can you do it while stopping in each city only once Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn In 1994 Leonard Adleman published a paper in which he described a solution using the tools of molecular biology for a smaller 7 city example of this problem His paper generated enormous scientific and public interest and kick started the field of Biological Computing the main subject of this discussion based seminar course Students will analyze the Adleman paper and the papers that preceded and followed it with an eye for identifying the engineering and scientific aspects of https://ocw.mit.edu/courses/biology/7-349-biological-computing-at-the-crossroads-of-engineering-and-science-spring-2005 https://ocw.mit.edu/courses/biology/7-349-biological-computing-at-the-crossroads-of-engineering-and-science-spring-2005