Ribosome Binding Sites/Prokaryotic/Constitutive/Community Collection

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The Weiss RBS family was described by Prof. Ron Weiss, Princeton.

Description

The Weiss RBS family are suitable for general protein expression in E. coli or other prokaryotes. The family is known to cover a range of translation initiation rates so by testing a few family members it should be possible to find a translation initiation rate that suits your application. This set of RBS were used and compared against one another by [http://weisswebserver.ee.princeton.edu/users/rweiss/ Ron Weiss]. BBa_B0030 is based on the CI RBS of bacteriophage λ. The remaining members of the set were first described by Gardner et alGardner. Further information about the RBS parts can be obtained from Prof. Weiss' [http://www.princeton.edu/~rweiss/papers/rweiss-phd-thesis.pdf PhD thesis].

Obtaining Weiss RBS parts

Via de novo synthesis: Since the RBS parts are short sequences, they can be easily and cheaply ordered as two single-stranded complementary oligo's and annealed. See here for a tutorial on how to construct short parts via oligo annealing.

Via the Registry distribution: The RBS parts are included in the Registry distribution. They are cloned into pSB1A2.

Characterization of the Weiss RBS family

Weiss RBS family members

Identifier Sequencea Strength
BBa_B0030 TCTAGAGATTAAAGAGGAGAAATACTAGATG 1
BBa_B0031 TCTAGAGTCACACAGGAAACCTACTAGATG 0.12
BBa_B0032 TCTAGAGTCACACAGGAAAGTACTAGATG 0.5
BBa_B0033 TCTAGAGTCACACAGGACTACTAGATG 0.012

aThe sequence of individual RBS are shown in black and red. The grey nucleotides show the bracketing sequence that results from assembling the RBS with an upstream part and a downstream coding sequence. The start codon of the downstream coding sequence is shown in green. See the "Obtaining Anderson RBS parts" section above for a description of how the physical DNA sequence of the Anderson RBS parts in the Registry differs slightly from the BioBrick® standard.

References

<biblio>

  1. Gardner pmid=10659857

</biblio>