SynBERC:COG
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==COG:Meeting 1== | ==COG:Meeting 1== | ||
Agenda: | Agenda: | ||
| - | + | ||
| - | # | + | ===What are the goals for COG?=== |
| - | # | + | Proposed based on SynBERC meet / conversations since: |
| - | #* | + | #Stay up to date with current automated cloning research projects taking place in SynBERC labs |
| - | + | #Get the ball rolling for solving the automated cloning problem in the short term | |
| - | + | ||
| + | ====Research Updates==== | ||
| + | *1/2 the meeting? | ||
| + | *Brief updates from each of the groups? one longer presentation each month about one project? | ||
| + | **Something else? | ||
| + | |||
| + | ====Getting the ball rolling for solving automated cloning==== | ||
| + | #Define the problem we want solved | ||
| + | #Specify the possible solutions | ||
| + | #Evaluate / Act on solutions | ||
| + | |||
| + | =====Define problem===== | ||
| + | *Combinatorial libraries of assembled parts (Wendall, UCSF iGEM team project) | ||
| + | *Automation of standard BioBrick Assembly (Registry) | ||
| + | *Automation of assembly independent of BBs (Synth companies?) | ||
| + | |||
| + | =====Specify Possible Solutions===== | ||
| + | #Decentralized approach | ||
| + | #*We make cloning easier by using some automation combined with "normal" individual cloning approaches. For example, each lab buys a Qiacube to partially automate minipreps and restriction digests. Then ligations and transformations are done by hand at the bench. | ||
| + | #Centralized academic facility | ||
| + | #*We find the resources to start an assembly facility similar to how sequencing facilities are set up on campus | ||
| + | #Outsource to DNA synthesis company | ||
| + | #*We work with a DNA synthesis company so that they can offer commercial automated cloning services. How do we ensure that such a partnership wouldn't fall apart as soon as a big synthesis order comes along? Automated cloning may be too small a market and/or too large a problem for DNA synthesis companies to tackle right now? | ||
| + | |||
| + | =====Evaluate / Act on Solutions===== | ||
| + | *Registry hires more staff to do process engineering | ||
| + | *Trial QIAcube / other "cheap" robots for distributed approach | ||
| + | *Figure out how big an assembly order iGEM + labs using parts could put together for a Synth company (George suggestion) | ||
| + | *Go talk to Synth companies see if they'll do this. | ||
| + | *Plot the cost of synth vs. assembly over time for particular length scales (drew's suggestion) | ||
| + | |||
| + | ===Meeting Frequency=== | ||
| + | *Monthly? | ||
| + | *Any weekday's particularly bad for certain groups? (Weds at MIT) | ||
| + | |||
| + | ===Next steps=== | ||
=Communication= | =Communication= | ||
Revision as of 11:19, 26 October 2007
Welcome to the Construction Optimization Group (COG)!
At the last SynBERC retreat SynBERCers decided that solving the challenge of automated DNA assembly/cloning would be a priority for the center. COG will be tasked with drafting a report for the upcoming NSF visit in March(?) that evaluates current assembly approaches and proposes a path forward. This page is just getting started, please add/edit!
Contents |
Goals
- Maintain communication across labs on status of automated assembly projects.
- Produce a report with evaluation of current assembly approaches and recommendations for going forward.
Meetings
COG:Meeting 1
Agenda:
What are the goals for COG?
Proposed based on SynBERC meet / conversations since:
- Stay up to date with current automated cloning research projects taking place in SynBERC labs
- Get the ball rolling for solving the automated cloning problem in the short term
Research Updates
- 1/2 the meeting?
- Brief updates from each of the groups? one longer presentation each month about one project?
- Something else?
Getting the ball rolling for solving automated cloning
- Define the problem we want solved
- Specify the possible solutions
- Evaluate / Act on solutions
Define problem
- Combinatorial libraries of assembled parts (Wendall, UCSF iGEM team project)
- Automation of standard BioBrick Assembly (Registry)
- Automation of assembly independent of BBs (Synth companies?)
Specify Possible Solutions
- Decentralized approach
- We make cloning easier by using some automation combined with "normal" individual cloning approaches. For example, each lab buys a Qiacube to partially automate minipreps and restriction digests. Then ligations and transformations are done by hand at the bench.
- Centralized academic facility
- We find the resources to start an assembly facility similar to how sequencing facilities are set up on campus
- Outsource to DNA synthesis company
- We work with a DNA synthesis company so that they can offer commercial automated cloning services. How do we ensure that such a partnership wouldn't fall apart as soon as a big synthesis order comes along? Automated cloning may be too small a market and/or too large a problem for DNA synthesis companies to tackle right now?
Evaluate / Act on Solutions
- Registry hires more staff to do process engineering
- Trial QIAcube / other "cheap" robots for distributed approach
- Figure out how big an assembly order iGEM + labs using parts could put together for a Synth company (George suggestion)
- Go talk to Synth companies see if they'll do this.
- Plot the cost of synth vs. assembly over time for particular length scales (drew's suggestion)
Meeting Frequency
- Monthly?
- Any weekday's particularly bad for certain groups? (Weds at MIT)
Next steps
Communication
- Join the mailing list
Members
- Chris Anderson
- Adam P. Arkin
- Austin Che
- George Church
- Jeffrey Dietrich
- John Dueber
- Will Holtz
- Jason R. Kelly
- Tom Knight
- Sergio Peisajovich
- Randy Rettberg
- Reshma Shetty
- Lane Weaver
- Reid Williams
- Josh Kittleson
- Harris Wang
- Caroline Ajo-Franklin
- Meagan Lizarazo
- Julie Norville
- Leonard Katz
- Swapnil Chhabra
