Team:BostonU

From 2013.igem.org

Revision as of 03:26, 27 September 2013 by Pshah23 (Talk | contribs)



Fuse, or Die: The Case for the MoClo Revolution




Synthetic biology exists more as a form of art than a reproducible, well-defined production chain. From laboratory to laboratory, the experiments vary in procedure, characterization, and yield. The main product of synthetic biology— engineered organisms, are available only to the highly-experienced researcher and are not without the costs of timely preparation and low product yield. Consequently, the lack of standardization across the field has impeded the product from ever reaching a wide industry audience. More recent engineering efforts in the assembly of gene circuits has provided a pathway to a modular view of genetic parts. Termed the Modular Cloning Assembly Method (MoClo), this novel single-pot reaction protocol is a time-effiecient, two-enzyme system for DNA assembly.  (Weber et al., 2011). Before MoClo can reach its full potential across research and industry interests, the synthetic biology community needs a standardized and well-characterized library of MoClo parts for Escherichia coli to enable protocol automation and informed device designing. The 2013 Boston University iGEM Team seeks to bridge this gap in the product development chain by building such a standard library and characterizing the parts through flow cytometry. To further efforts to develop foundational advancements for synthetic biology, we are taking a multi-faceted approach and working at several aspects and levels of design automation by:

  • expanding a library of basic (Level 0) MoClo parts by cloning off of BioBrick parts and making new parts
  • building a library of composite (Level 1 and 2) parts to characterize promoter-RBS combinations and demonstrate the library's usefulness
  • providing feedback on Clotho 2.0 software tools including the EugeneCAD language to a team of developers in the CIDAR
  • working with the Wellesley Desyne team to develop an easy-to-use visualized programming language to wrap around Eugene
  • working with the CIDAR group to design protocols for a TECAN liquid-handling robot
  • continuing the Data Sheet project from the 2012 BostonU team by finalizing a format for sharing information with Purdue Biomaker's iGEM Team and programming a web app to generate the Data Sheets

This year's work on these projects bring us closer to a more complete MoClo/Clotho platform for designing devices with software, constructing more complex devices in the wetlab by hand or with a liquid-handling robot, and sharing characterization data.



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