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[[Template: | [[Template:SBB12Indiv-1208 | Jon Wright]]<br> | ||
{{SBB12_ProjectGeneralNotes}} <br> {{SBB12_part_sbb1219}} <br> {{SBB12_part_sbb1209}} | {{SBB12_ProjectGeneralNotes}} <br> {{SBB12_part_sbb1219}} <br> {{SBB12_part_sbb1209}} |
Revision as of 23:02, 12 February 2012
Welcome to your project page!
I've given you two parts to make.
- Design oligos to make your part
- Write up a proper construction file on the wiki template associated with your part
- Enter your Features (REMEMBER: It's not a bug, it's a feature. We just don't know what it does yet), Oligos, Parts, and Plasmids into Clotho
Also, use the link above left to upload a picture of yourself, your name, and anything else you'd like, and rename the link from "Your Name Here" to your name.
Finally, you should create a notebook on the on the main class page of the wiki
Partname: sbb1219 Description: P_R-AmilCP Genename: P_R, AmilCP Source: Lambda phage / synthetic
You are going to make an AmilCP reporter of the P_R promoter from lambda phage. This promoter shuts down when bound to CI protein. The sequence of the P_R part, which is present in pBjk2741-jtk2801 is:
GATCTtaaatctatcaccgcaagggataaatatctaacaccgtgcgtgttgactattttacctctggcggtgataatggttgcG
You can get the PglpT-AmilCP fragment from plasmid pBjk2741-jtk3346. What you want to make is BglBrick part that would result from joining the P_R part with the rbs.AmilCP part. However, you'll be making the construct by SOEing. In designing your construction file for this, note that the P_R part is really short, and things will go better if you use oligo ca998 as the forward external oligo instead of some annealing region that binds within the part. Ask JCA if that doesn't make sense.
The vector for your final product should be pBgl00001, and you can use plasmid pBgl00001-Bjk2828. Note that this plasmid has a p15A origin of replication, and as such is much lower copy than most other parts you'll work with. As a result, you won't get much material in your minipreps, and you should adjust things accordingly.
Genomic or plasmid DNA with this feature is available
Either genomic DNA or plasmid DNA is available for this sequence. Use your usual considerations of size and number of internal restriction sites to decide whether you should use that template for construction. You'll also need to think through which polymerase to use in making the construct.
Construction File
PCR ca998/jw000R on pBjk2741-jtk2801 (160 bp, proprd) PCR jw000F/g00101 on pBjk2741-jtk3346 (710 bp, amiprd) PCR ca998/g00101 on proprd+amiprd (951 bp, pcrpdt) Digest pcrpdt (EcoRI/BamHI, L, pcrdig) Digest pBgl00001-Bjk2828 (EcoRI/BamHI, L, vectdig) Ligate pcrdig and vectdig (pBgl00001-sbb1219) ---- >ca998 gtatcacgaggcagaatttcag >g00101 attaccgcctttgagtgagc >jw000R Reverse internal annealing for purification of P_R part gttaaattagtcAGATCCgcaacc >jw000F Forward internal annealing for purification of rbs.AmilCP ggttgcGGATCTgactaatttaac >pcrpdt GTATCACGAGGCAGAATTTCAGATAAAAAAAATCCTTAGCTTTCGCTAAGGATCTGAAGTGGAATTCATGAGATCTTAAATCTATCACCGCAAGGGATAAATATCTAACACCGTGCGTGTTGACTATTTTACCTCTGGCGGTGATAATGGTTGCGGATCTGACTAATTTAACGAGGAGGATTTCATGAGTGTGATCGCTAAACAAATGACCTACAAGGTTTATATGTCAGGCACGGTCAATGGACACTACTTTGAGGTCGAAGGCGATGGAAAAGGTAAGCCCTACGAGGGGGAGCAGACGGTAAAGCTCACTGTCACCAAGGGCGGACCTCTGCCATTTGCTTGGGATATTTTATCACCACAGTGTCAGTACGGAAGCATACCATTCACCAAGTACCCTGAAGACATCCCTGACTATGTAAAGCAGTCATTCCCGGAGGGCTATACATGGGAGAGGATCATGAACTTTGAAGATGGTGCAGTGTGTACTGTCAGCAATGATTCCAGCATCCAAGGCAACTGTTTCATCTACCATGTCAAGTTCTCTGGTTTGAACTTTCCTCCCAATGGACCTGTCATGCAGAAGAAGACACAGGGCTGGGAACCCAACACTGAGCGTCTCTTTGCACGAGATGGAATGCTGCTAGGAAACAACTTTATGGCTCTGAAGTTAGAAGGAGGCGGTCACTATTTGTGTGAATTTAAAACTACTTACAAGGCAAAGAAGCCTGTGAAGATGCCAGGGTATCACTATGTTGACCGCAAACTGGATGTAACCAATCACAACAAGGATTACACTTCGGTTGAGCAGTGTGAAATTTCCATTGCACGCAAACCTGTGGTCGCCTAATAAGGATCCTAACTCGCTCCTCAGGCTTCCTCGCTCACTGACTCGCTGCGCTCGGTCGTTCGGCTGCGGCGAGCGGTATCAGCTCACTCAAAGGCGGTAAT
Partname: sbb1209 Featurename: lz_KILD Genename: leucine zipper variant Source: Synthetic, see PMID:12459719
This part encodes a leucine zipper
We will be using a set of leucine zippers as homodimer domains. In total, we'll have 8 of them all with different Kd's for homodimerization. However, the sequences only differ at the same 4 amino acid sites. This will allow us to test whether the activation of ToxR is dependent on the Kd of the homodimer that is attached to it. These sequences are entirely synthetic, but all should encode the following peptide:
VKELEDKNEELLS XX YH XX NEVARLKKLVGERGGC*
Where the x's are the amino acids I tell you. So, if I gave you the lz_IILK zipper to make, the peptide you should encode is: VKELEDKNEELLSIIYHLKNEVARLKKLVGERGGC*
Here is an example of what your trying to make pBca9525-sbb1230.
This part encodes a homodimer domain
You are going to put the homodimer on the C-terminus of a truncated ToxR. For this part, you're going to go off BioBricks. Kindov. Your final product will be a BioBrick, but you are going to use an ad hoc procedure to create it. You should examine this illustration which refers to two sequences: pBca9525-Bca1834 and pBca9525-Bca1839. The important thing here is that you think through the translation frame of the final product, and make sure that you add some linker between your sequence and the sequence 5' to it. You should also remove the start methionine from you homodimer, unless your project description explicitly says not to. You should include the stop codon.
The product of your construction file should resemble pBca9525-Bca1839 in terms of it encoding a full expression cassette containing a ToxR fusion protein with your designed feature. If you were given part sbb1293, your product would be called pBca9525-sbb1293.
Construction File
PCA1 on o1,o9,o2 (pca1) PCA2 with o1/o2 on pca1 (142 bp, pca2) Digest pca2 (NheI/BamHI, L, 1209dig) Digest pBca9525-Bca1834 (NheI/BamHI, L, vectdig) Ligate 1209dig + vectdig, product is pBca9525-sbb1209 ---- >o1 CCATAgctagcGGCAGTGGATCTGTTAAAGAACTGGAAGACAAAAACGAAGAACTGCTGAGT >o2 CAGTAGGATCCTTAGCAGCCGCCACGTTCGCCAACCAGTTTTTTCAGACGAGCAACTTCGTT >o9 CAAAAACGAAGAACTGCTGAGTAAGATCTACCACCTGGACAACGAAGTTGCTCGTCTGA >pca2 CCATAgctagcGGCAGTGGATCTGTTAAAGAACTGGAAGACAAAAACGAAGAACTGCTGAGTAAGATCTACCACCTGGACAACGAAGTTGCTCGTCTGAAAAAACTGGTTGGCGAACGTGGCGGCTGCTAAGGATCCTACTG