DNA
spacer

Part:BBa_B0040:Design

Designed by: Vinay S. Mahajan, Brian Chow, Peter Carr   Group: Antiquity   (2003-01-31)
Revision as of 01:49, 30 April 2006 by Registry (Talk | contribs)


Spacer.1 (generic)


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]

Design Notes

The size of the spacer was choosed to meet the minimum length of a sequence that can be queried using the BLAST search engine. However, subsequences of it can be used to design shorter spacers. The sequence was selected from many more sequences randomly generated using the <a href="http://www.lifesci.ucsb.edu/~maduro/random.htm">Random DNA Generator </a>engine; the GC% parameter used as input was 50%. The sequences were selected based on the following constraints listed in their order of importance: the absence of any putative promoter regions, a low degree of homology with the Elowitz plasmid (whose components are widely used in our designs), no homology with other E.coli sequences as shown by BLASTN search results and the presence of a number of TAA stop codons. The second constraint was the most stringent leading to the elimination of most sequences.

DE made the following changes to the original sequence in order to add stop codons in the -3 frame and more in the +2 frame (note, not all of these stop codons are UAA. Thus, if used in an organism that inserts an amino acid @ UGA or UAG the obvious will occur):

T->A @ 85

T->A @ 42

C->T @ 79

A->T @ 64

A->T @ 31

T->A @ 34

C->A @ 37

Also, note that the above changes further reduce (the already very weak) homology to current NCBI-stored sequences.

In the process of selecting the best sequence it appeared that a good alternative sequence for a spacer would be: AGGTTCTGATATGTAACTGTGCCCAATGTCGTTAGTGACGCATACCTCTTAAGAGGCCACTGTCCTAACA. The sequence contains no putative promoters and shows moderate homology with the 5' end of the Ampicillin resistance gene. However a strong promoter sequence starts 12 bp downstream of this sequence, and therefore the sequence presented above was preferred.

The sequence is compatible (does not show significant homology) with the components in the Elowitz repressilator plasmid.


Source

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References

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