Goldenbraid 2.0: A Standardised DNA Assembly Framework

As promised in my posts about the Plant Engine meeting I attended a couple of weeks ago (1, 2), here is Diego Orzaez to explain his GoldenBraid cloning method and online DNA assembly framework. Diego co-leads the Plant Genomics and Biotechnology Lab at the Instituto de Biología Molecular y Celular de Plantas in Valencia, Spain. 

goldenbraid

GOLDENBRAID 2.0: A STANDARDIZED DNA ASSEMBLY FRAMEWORK FOR MULTIGENE ENGINEERING IN PLANTS

Engineering large multigenic constructs for Plant Synthetic Biology, such as complex metabolic pathways or intricate gene networks, requires efficient, flexible DNA synthesis and assembly technologies. Although custom gene synthesis is becoming increasingly affordable, the direct synthesis of large multigenic constructs remains prohibitive for most labs. Moreover, custom gene synthesis gives little room for combinatorial engineering, something that is highly valued by biotechnologists.

An alternative “building” strategy for multigene engineering is Modular Construction, that is, the fabrication of new devices by combination of prefabricated standard modules. Modular DNA Construction brings a number of advantages as speed, versatility, lab autonomy, combinatorial potential and often lower cost. As in any standardized methodology, the more users adopt the standard, the bigger the advantages.

GoldenBraid is a Modular DNA Construction method developed at the Plant Genomics and Biotechnology lab (IBMCP-Spain), especially designed for building exchangeable multigenic constructs for Plant Synthetic Biology. Routinely, 15-20 Kb constructs comprising 4-6 transcriptional units made of dozens of individual pre-fabricated modules (GBparts) can be created in few days. Longer constructs can be assembled with little additional effort.

To facilitate the process of genetic design using GoldenBraid, and to stimulate the exchange of genetic modules among laboratories, we have recently launched GoldenBraid2.0 (GB2.0), a web-based DNA assembly framework available at www.gbcloning.org site. The GB2.0 webpage hosts the public GB2.0 database, an increasingly populated collection of pre-made “GBparts” that conform to the GB standard. An embedded software tool named GBdomesticator provides users with personalized lab protocols for creating their own collection of standard genetic parts. Users can always combine their own parts with those deposited in the public GB2.0 database. Moreover, building new GB2.0 multigenic constructs is highly facilitated by the GB assembler tool, a software package that assists in the design of new multigenic constructs.

We believe that adopting common standards and creating of public repositories of exchangeable genetic parts will speed up progress in Plant Biotechnology. If you are interested in this field, we encourage you to explore the gbcloning.org webpages. The details of GB assembly system are described in the publications listed below, and there are tutorials online.

Comments on how to enhance community efforts towards the development of public repositories of standard DNA parts are most welcome, and can be addressed to goldenbraid@ibmcp.upv.es

 

References

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