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:Post your slides after you give your presentation (see [[Help:Hosting_courses |section on posting slides]]). Make sure Figs are cited.
:Post your slides after you give your presentation (see [[Help:Hosting_courses |section on posting slides]]). Make sure Figs are cited.
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'''Note'''
:Info Management section updated with Connotea and Crystal Structure Info on Help page
:Info Management section updated with Connotea and Crystal Structure Info on Help page
:Don't forget the "BMB Seminar Series WIki Header" challenges
:Any submissions for the "BMB Departmental Seminar Series WIki Header"? Theme is Molecular Medicine.
:Proposed "Course Template" [[BMCB625:Discussion_Univ_template]]. Please comment using page discussion tab
:Departmental course evaluation form is posted on Materials page, Evaluation section.  
: The [[BMCB625:Discussion|Course Discussion Page]] is ready for you to populate.  Your suggestions are requested for future themes
: The [[BMCB625:Discussion|Course Discussion Page]] is ready for you to populate.  Your suggestions are requested for future themes
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Revision as of 13:08, 13 June 2007

BMCB625 Advanced Topics in Molecular Biology

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This week's tasks:

Post your slides after you give your presentation (see section on posting slides). Make sure Figs are cited.

Note

Info Management section updated with Connotea and Crystal Structure Info on Help page
Any submissions for the "BMB Departmental Seminar Series WIki Header"? Theme is Molecular Medicine.
Departmental course evaluation form is posted on Materials page, Evaluation section.
The Course Discussion Page is ready for you to populate. Your suggestions are requested for future themes


Course overview

  • Location: BRB 603. Wednesdays from 9:30 - 11:30 (practice and review session) and Thursdays (The Real Thang) from 10:30 - 12:30
  • How the Class Works

Advanced Molecular Biology: Topics and Methods in Modern Molecular 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 in the Biochemistry and Molecular Biology faculty. Topics will include properties of nucleotides and nucleic acids, the composition and structure of eukaryotic chromatin, eukaryotic gene expression, DNA replication, RNA transcription, RNA splicing and metabolism, and protein translation.

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

  1. encourage students to seize every available resource for sifting and apprehending scientific matter (e.g., Nature podcasts, social bookmarking, RSS feeds, faculty, each other)
  2. develop an appreciation for the molecular machines that duplicate nucleic acids
  3. get familiar with collaborative web-based tools (OWW and wiki)
  4. create ambassadors for open science
  5. improve presentation skills, both in form and scientific content
  6. engage in active group-based learning
  7. gain leadership and organizational experience
  8. build a shared web resource for information obtained in the class

Announcements

  • A picture is needed for the BMB seminar series wiki banner jpg. A combo picture ala Jon Fay/Larry user page would be nice, except with a theme of molecular medicine (next year's theme) and maybe including some local color. If anyone is up to the challenge, please post an example link on your user page.

Extras

Thanks

Thanks to David Ransom, OHSU, Ted Weinert, University of Arizona, J. David Castle, U. Va, and many of our OpenWetWare colleagues who have helped inspire and inform development of this course. Special thanks to Reshma Shetty for creating a terrific course template (see help hosting courses).

Recent updates to the course

List of abbreviations:
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16 April 2024

15 April 2024

      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 14 changes history +9,705 [Xning098‎ (14×)]
     
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     21:45  (Upload log) [Xning098‎ (4×)]
     
21:45 Xning098 talk contribs uploaded File:Figure 4 Tdesign.png
     
21:30 Xning098 talk contribs uploaded File:Figure 3 Set-up3.png
     
21:24 Xning098 talk contribs uploaded File:Figure 2 Set-up1.png
     
21:09 Xning098 talk contribs uploaded File:Figure 1 electroosmotic flow.png
N    18:16  Multilayer Paper Microfluidics - Madyson Redder‎‎ 21 changes history +6,228 [Mredder‎ (21×)]
     
18:16 (cur | prev) +540 Mredder talk contribs (→‎Fabrication Methods)
     
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17:03 (cur | prev) +1,598 Mredder talk contribs (Created page with "{{Template:CHEM-ENG590E}} Overview 3D polymeric or glass microfluidic devices were created to run tests on small amounts of liquid and receive results in a timely manner. However, these devices are costly and time consuming to produce. A solution to this problem was single-layer paper microfluidic devices. The most common known examples of single-layer paper microfluidic devices are pregnancy tests, COVID-19 antigen tests, and glucose test strips. While these devices a...")
     17:02  CHEM-ENG590E:Wiki Textbook diffhist +54 Mredder talk contribs (→‎Chapter 7 - Fiber-based Microfluidics)
 m   07:22  Paper Microfluidic Device for Archiving Breast Epithelial Cells diffhist +6 Sarah L. Perry talk contribs
     06:39  Hu diffhist +66 Hugangqing talk contribs

14 April 2024


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