CANB 610: Difference between revisions
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==Course overview== | ==Course overview== | ||
*Winter 2012 | *Winter 2012 | ||
*Location: Oregon Health and | *Location: [http://www.ohsu.edu/xd/about/visiting/directions/marquamhill.cfm| Oregon Health and Science University] main campus. Tuesdays practice and review session in Mac Hall room 1162 from 2-3:50 or as noted on schedule, and Thursdays (Presentations) from 3 to 5 pm, Medical Research Building (MRB) 634. | ||
*[[CANB 610:How the class works|How the Class Works]] | *[[CANB 610:How the class works|How the Class Works]] | ||
''' | '''Current Topics in Cancer Biology.''' An advanced graduate course with an emphasis on the latest research from the primary literature along with in-depth presentation of the basic concepts of biochemistry and molecular biology. Topics will be chosen from areas of expertise among the cancer biology faculty. Topics will include genomics and cancer, genomic instability, and drug discovery. | ||
This class is not a faculty-driven lecture class, but is based on student presentations of background material and research papers selected from the current literature. It is designed to maximize active roles for students in each class. | This class is not a faculty-driven lecture class, but is based on student presentations of background material and research papers selected from the current literature. It is designed to maximize active roles for students in each class. | ||
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==Recent updates to the course== | ==Recent updates to the course== | ||
{{Special:Recentchanges/ | {{Special:Recentchanges/CANB 610&limit=50}} | ||
{{Special:Recentchanges/CANB610&limit=50}} | |||
</div> | </div> | ||
Latest revision as of 14:33, 14 February 2012
Course overview
- Winter 2012
- Location: Oregon Health and Science University main campus. Tuesdays practice and review session in Mac Hall room 1162 from 2-3:50 or as noted on schedule, and Thursdays (Presentations) from 3 to 5 pm, Medical Research Building (MRB) 634.
- How the Class Works
Current Topics in Cancer Biology. An advanced graduate course with an emphasis on the latest research from the primary literature along with in-depth presentation of the basic concepts of biochemistry and molecular biology. Topics will be chosen from areas of expertise among the cancer biology faculty. Topics will include genomics and cancer, genomic instability, and drug discovery.
This class is not a faculty-driven lecture class, but is based on student presentations of background material and research papers selected from the current literature. It is designed to maximize active roles for students in each class.
Goals of the Class
- Encourage students to seize every available resource for sifting and apprehending scientific matter (e.g., Nature podcasts, social bookmarking, RSS feeds, faculty, each other)
- Develop an appreciation for the molecular machines that duplicate nucleic acids
- Get familiar with collaborative web-based tools (OWW and wiki)
- Create ambassadors for open science
- Improve presentation skills, both in form and scientific content
- Engage in active group-based learning
- Gain leadership and organizational experience
- Build a shared web resource for information obtained in the class
Extras
Recent updates to the course
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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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List of abbreviations:
- N
- This edit created a new page (also see list of new pages)
- m
- This is a minor edit
- b
- This edit was performed by a bot
- (±123)
- The page size changed by this number of bytes
17 April 2024
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15:34 | BioMicroCenter:Element Sequencing 3 changes history +295 [Challee (3×)] | |||
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15:34 (cur | prev) +195 Challee talk contribs | ||||
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14:22 (cur | prev) +100 Challee talk contribs | ||||
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14:07 (cur | prev) 0 Challee talk contribs | ||||
| 13:10 | BioMicroCenter:SingleCell diffhist +30 Noelani Kamelamela talk contribs (→10X CHROMIUM X) | ||||
| 12:43 | BioMicroCenter diffhist −15 Noelani Kamelamela talk contribs | ||||
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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19:59 (cur | prev) +769 CarterPaul talk contribs (→Thermal NIL Process) | ||||
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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=") | |||
| 19:40 | Upload log CarterPaul talk contribs uploaded File:NIL1.png | ||||
| 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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18:38 (cur | prev) +50 CarterPaul talk contribs (→Chapter 1 - Microfabrication) | ||||
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18:37 (cur | prev) +13 CarterPaul talk contribs | ||||
| 18:36 | 3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, and Adam Lyons diffhist +5,343 CarterPaul talk contribs (Added a Technique and applications section) | ||||
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10:20 | Yarn Microfluidics - Roger Dirth 12 changes history +442 [Rcostello (12×)] | |||
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10:20 (cur | prev) +41 Rcostello talk contribs (→Applications) | ||||
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10:19 (cur | prev) +36 Rcostello talk contribs (→Applications) | ||||
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10:17 (cur | prev) +38 Rcostello talk contribs (→Washburn Equation) | ||||
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10:16 (cur | prev) +38 Rcostello talk contribs (→Wicking Rate) | ||||
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10:16 (cur | prev) +37 Rcostello talk contribs (→Introduction) | ||||
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10:15 (cur | prev) +36 Rcostello talk contribs (→Wicking Rate) | ||||
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10:14 (cur | prev) +36 Rcostello talk contribs (→Fabrication) | ||||
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10:14 (cur | prev) +36 Rcostello talk contribs (→Introduction) | ||||
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10:13 (cur | prev) +36 Rcostello talk contribs (→Introduction) | ||||
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08:18 | 3D Printed Microfluidic Robots - Helen Hua 2 changes history +6 [Michele Caggioni (2×)] | |||
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08:18 (cur | prev) +22 Michele Caggioni talk contribs (→Actuation) | ||||
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| 08:11 | 3D Printing Overview diffhist +422 Michele Caggioni talk contribs | ||||
15 April 2024
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23:43 | User:Yanbin Huang 2 changes history +170 [Yanbin Huang (2×)] | |||
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23:43 (cur | prev) 0 Yanbin Huang talk contribs (→Granted Patents) | ||||
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23:43 (cur | prev) +170 Yanbin Huang talk contribs (→Granted Patents) | ||||
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22:11 | The paper that launched microfluidics - Xi Ning 11 changes history +4,793 [Xning098 (11×)] | |||
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22:11 (cur | prev) −6 Xning098 talk contribs (→Summary) | ||||
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22:07 (cur | prev) −12 Xning098 talk contribs (→Synthesis) | ||||
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22:01 (cur | prev) +3,189 Xning098 talk contribs | ||||
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21:44 (cur | prev) +688 Xning098 talk contribs (→Separation and quantification) | ||||
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21:33 (cur | prev) +306 Xning098 talk contribs | ||||
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21:29 (cur | prev) −2 Xning098 talk contribs (→Electrokinetic effect) | ||||
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21:28 (cur | prev) −1 Xning098 talk contribs (→Separation and quantification) | ||||
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21:45 | (Upload log) [Xning098 (2×)] | |||
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21:45 Xning098 talk contribs uploaded File:Figure 4 Tdesign.png | ||||
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21:30 Xning098 talk contribs uploaded File:Figure 3 Set-up3.png | ||||
