20.949/F10: Difference between revisions
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The field of synthetic biology is quickly emerging as potentially one of the most important and profound ways by which we can understand and manipulate our physical world for desired purposes. While synthetic biology builds upon existing areas, such as genetic engineering, systems biology, and non-biological fields such as computer science, it is becoming evident that synthetic biology represents its own new engineering discipline. At the heart of Synthetic Biology is the aim to make the engineering of new biological function predictable, safe, and quick and to aid in creating biological applications of benefit to society. In this course the field and its natural scientific and engineering basis are introduced. Relevant topics in cellular and molecular biology and biophysics, dynamical and engineering systems, and design and operation of natural and synthetic circuits are covered in a concise manner that than allows the student to begin to design new biology-based systems. | The field of synthetic biology is quickly emerging as potentially one of the most important and profound ways by which we can understand and manipulate our physical world for desired purposes. While synthetic biology builds upon existing areas, such as genetic engineering, systems biology, and non-biological fields such as computer science, it is becoming evident that synthetic biology represents its own new engineering discipline. At the heart of Synthetic Biology is the aim to make the engineering of new biological function predictable, safe, and quick and to aid in creating biological applications of benefit to society. In this course the field and its natural scientific and engineering basis are introduced. Relevant topics in cellular and molecular biology and biophysics, dynamical and engineering systems, and design and operation of natural and synthetic circuits are covered in a concise manner that than allows the student to begin to design new biology-based systems. | ||
Units: 3-0-9 | |||
Schedule: TR 11-12:30 | |||
Room: 9-057 | |||
* Graduate-H | * Graduate-H | ||
Revision as of 07:01, 1 September 2010
Course overview
The field of synthetic biology is quickly emerging as potentially one of the most important and profound ways by which we can understand and manipulate our physical world for desired purposes. While synthetic biology builds upon existing areas, such as genetic engineering, systems biology, and non-biological fields such as computer science, it is becoming evident that synthetic biology represents its own new engineering discipline. At the heart of Synthetic Biology is the aim to make the engineering of new biological function predictable, safe, and quick and to aid in creating biological applications of benefit to society. In this course the field and its natural scientific and engineering basis are introduced. Relevant topics in cellular and molecular biology and biophysics, dynamical and engineering systems, and design and operation of natural and synthetic circuits are covered in a concise manner that than allows the student to begin to design new biology-based systems.
Units: 3-0-9 Schedule: TR 11-12:30 Room: 9-057
- Graduate-H
- BioEECS Engineering Concentration
- Restricted Course 20 Elective
- Graduate & undergraduate students with various backgrounds are encouraged to enroll.
Recent updates to the course
List of abbreviations:
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17 April 2024
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15:34 | BioMicroCenter:Element Sequencing 3 changes history +295 [Challee (3×)] | |||
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16 April 2024
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N 19:59 | Nanoimprint Lithography (NIL) - Carter Paul 10 changes history +7,205 [CarterPaul (10×)] | |||
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18:42 (cur | prev) +85 CarterPaul talk contribs (Created page with "{{Template:CHEM-ENG590E}} =Motivation= =Introduction to NIL= =Thermal NIL Process=") | |||
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| N 18:40 | 3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, Adam Lyons and Jacob Belden diffhist +24,060 CarterPaul talk contribs (Created page with "{{Template:CHEM-ENG590E}} ==Introduction== While most microfluidic devices incorporate a 2D cell culture design, in which a single layer of cells is grown on the bottom of a device, these systems suffer from poor <i>in vivo</i> mimicry, as, in the human body, most cells grow in all directions.<sup>https://doi.org/10.5114/aoms.2016.63743 1</sup> To address this limitation, 3D cell culture devices have been developed - in w...") | ||||
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18:38 | CHEM-ENG590E:Wiki Textbook 2 changes history +63 [CarterPaul (2×)] | |||
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10:20 | Yarn Microfluidics - Roger Dirth 12 changes history +442 [Rcostello (12×)] | |||
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08:18 | 3D Printed Microfluidic Robots - Helen Hua 2 changes history +6 [Michele Caggioni (2×)] | |||
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15 April 2024
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23:43 | User:Yanbin Huang 2 changes history +170 [Yanbin Huang (2×)] | |||
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22:11 | The paper that launched microfluidics - Xi Ning 11 changes history +4,793 [Xning098 (11×)] | |||
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21:30 Xning098 talk contribs uploaded File:Figure 3 Set-up3.png | ||||
