Team:Cambridge/Notebook/Week3

From 2009.igem.org

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'''Amplification system'''  
'''Amplification system'''  
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:*Possible plan
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::*We would want to tag the activator proteins then quantify their degradation in some way
:'''Activators'''
:'''Activators'''
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::*AAV: amino acid sequence AANDENYAAAV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCAGCAGTT
::*AAV: amino acid sequence AANDENYAAAV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCAGCAGTT
(primer – CGTCGTTTGCTGCTTTTGATGCGACGTCGTCAA, currently the "planning" biobrick BBa_M0044 with DNA sequence GCAGCAAACGACGAAAACTACGCTGCTGCTGTT)
(primer – CGTCGTTTGCTGCTTTTGATGCGACGTCGTCAA, currently the "planning" biobrick BBa_M0044 with DNA sequence GCAGCAAACGACGAAAACTACGCTGCTGCTGTT)
 +
:::*NOTE: we need to use the biobrick DNA sequence as the DNA sequence described in the paper has a forbidden PstI site
::*ASV: amino acid sequence AANDENYAASV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCATCAGTT
::*ASV: amino acid sequence AANDENYAASV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCATCAGTT
(primer – CGTCGTTTGCTGCTTTTGATGCGACGTAGTCAA, currently the "planning" biobrick BBa_M0046 with DNA sequence GCTGCAAACGACGAAAACTACGCTGCATCAGTT)
(primer – CGTCGTTTGCTGCTTTTGATGCGACGTAGTCAA, currently the "planning" biobrick BBa_M0046 with DNA sequence GCTGCAAACGACGAAAACTACGCTGCATCAGTT)

Revision as of 13:06, 27 July 2009


Week 3 - Development

Monday

Primer Design

Primers were designed to convert MelA into a biobrick. Primers A and F are for either end (including prefix and suffix - highlighted in green). The other primers surround the unwanted restiction sites (highlighted in yellow) with the changed base in red.

MelA primers.JPG

These correspond to the parts on the gene shown below. The stars correspond to the two unwanted restriction sites.

MelA primer map.JPG

Orange Pigment

Used plasmid editor to examine the genes used for the production of orange pigments. The (supposedly) orange-producing pigment from the biobricks:

Orange biobrick.JPG

We also tried a preliminary design for a biobrick we could construct, in case the orange biobrick does not function. This uses the same genetic synthetic pathway for gene consruction:

EBI.JPG

Transformed Pigments

The MelA plate left on the bench overnight produced a brown-coloured pigment! Growth on media containing IPTG should produce this pigment a lot faster.

Amplification system

  • Possible plan
  • We would want to tag the activator proteins then quantify their degradation in some way
Activators
  • Found parts submitted by Cambridge '07 team amplifier project. Three translational units (ribosome binding sites and protein coding sequence) for the three activators. Sequence below.
  • Ogr activator from P2 phage: Part I746350


>BBa_I746350 Part-only sequence (237 bp) aaagaggagaaatactagatgtttcattgtcctttatgccagcatgccgcacatgcgcgtacaagtcgctatatcactgacacgacaaaagagcgttatc atcagtgccagaacgtgaattgcagcgccacgttcatcacttatgagtcggtacagcgatacatcgtgaagccgggagaagtccacgccgtaaggccgca cccgttgccatcagggcagcaaattatgtggatgtaa

  • pag activator from PSP3 phage: Part I746351

>BBa_I746351 Part-only sequence (237 bp) aaagaggagaaatactagatgatgcactgcccgttatgccaaaacgctgcacatgctcgcactagccggtaccttagcaccgaaacgaaagaacgttatc accagtgccaaaacataaattgcggatgtacatttatcacttttgagacactatcaagattcattgtgaaaccggggactgttgatcctgctccgcccca ccccatcagaaaccaacaacagcaactttggctttga

  • delta activator from phiR73 phage: Part I746352

>BBa_I746352 Part-only sequence (264 bp) aaagaggagaaatactagatgatgcgctgccctttctgtcgtcattcagcgcatacccgcaccagccggtatgtgagtgacaatgtcaaagaaagttatc tccagtgccagaatatttactgttcggcgacatttaaaacgcatgagtcaatttgtgccgtgattcgttctccggtcacggaggaaaaaccagcaccggc aagcacagcaccggctgttgtccgaaaagttaaaggctgttacagctcaccattcaaccattaa

(delete sequence if you think its unnecessary and just leave part names)

Promoters

Available as individual parts, with a GFP reporter or as part of a composite with the activator upstream. Five promoters as used by Cambridge '07:

PF promoter, part: I746360 PO promoter, part: I746361 PP promoter, part: I746362 Psid promoter, part: I746364 PLL promoter, part: I746365

Degradation Tags
  • three tags are well described in Andersen, J. B., Sternberg, C., Poulsen, L. K., Bjorn, S. P., Givskov, M. & Molin, S. (1998). New unstable variants of green fluorescent protein for studies of transient gene expression in bacteria. Appl Environ Microbiol 64, 2240–2246.[http://aem.asm.org/cgi/reprint/64/6/2240], which detailed tagged-GFP degredation.
  • the tags as described in the paper that we could use are as follows:
  • LAA: amino acid sequence AANDENYALAA, DNA sequence GCAGCAAACGACGAAAACTACGCTTTAGCAGCT

(primer – CGTCGTTTGCTGCTTTTGATGCGAAATCGTCGA) (currently the "planning" biobrick BBa_M0042)

  • AAV: amino acid sequence AANDENYAAAV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCAGCAGTT

(primer – CGTCGTTTGCTGCTTTTGATGCGACGTCGTCAA, currently the "planning" biobrick BBa_M0044 with DNA sequence GCAGCAAACGACGAAAACTACGCTGCTGCTGTT)

  • NOTE: we need to use the biobrick DNA sequence as the DNA sequence described in the paper has a forbidden PstI site
  • ASV: amino acid sequence AANDENYAASV, DNA sequence GCAGCAAACGACGAAAACTACGCTGCATCAGTT

(primer – CGTCGTTTGCTGCTTTTGATGCGACGTAGTCAA, currently the "planning" biobrick BBa_M0046 with DNA sequence GCTGCAAACGACGAAAACTACGCTGCATCAGTT)

Tuesday

Wednesday

Thursday

Friday