Team:Yale/Our Project/Notebook/Week 2

From 2010.igem.org

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*This plan was eventually altered, as promoter choices were altered and no light-inducible promoter was found. <br/>
*This plan was eventually altered, as promoter choices were altered and no light-inducible promoter was found. <br/>
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To make these plasmids, we will rely on the standard iGEM assembly protocol involving restriction enzymes EcoRI, XbaI, PstI, and SpeI shown in the diagram at right, but in the first ligation the B0015 terminator will take the place of C0010 and the phsABC  gene in pSB74 will take the place of B0034. <br/>
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<b> Steps to make these plasmids </b> <br/>
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1. Initial Amplification—transform and amplify terminator, promoter, and gene DNA <br/>
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2. Gene-Terminator linkage—Digest terminator with EcoRI and XbaI, digest PCR product gene  with EcoRI and SpeI, and ligate together to get gene and terminator in nonstandard plasmid <br/>
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3. Creation of Standard Generator—digest step 2 product with EcoRI and PstI and ligate into standard iGEM plasmid pSB1C3 to get the generator <br/>
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4.  Addition of promoter—Digest promoter with EcoRI and Spe--digest generator vector with EcoRI and XbaI, and ligate together<br/>
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<h5> Primer design for amplification of the phsABC gene from background vector pSB74 </h5>
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Given the size of phsABC, consider introducing it in pieces to enhance expression, with AB on one plasmid and C on a second. To this effect, design forward primers to go at the beginning of A and C as well as reverse primers to go at the end of B and C. <br/>
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Design the following primers based on the phsABC sequence information listed below after having confirmed that the BioBrick restriction enzyme cut sites are not present in the phsABC sequence. <br/>
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<i>This information is also recorded on page 11 of the hard copy lab notebook. </i>
<i>This information is also recorded on page 11 of the hard copy lab notebook. </i>

Revision as of 03:02, 27 October 2010

iGEM Yale

lab notebook: week 2 (6/14-6/20)

  • Monday 6/14--Redo of 6/11 assay of bacterial growth within a narrow copper(II) concentrations after analysis of data showed uniformly poor growth.
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  • Tuesday 6/15--Results and analysis of the 6/14 narrow concentration range growth assay as well as planning for the creation of a standard iGEM plasmid bearing the thiosulfate reductase operon (phsABC).
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  • Wednesday 6/16--checked on spotted cell survival assay, collected MOPS minimal media materials, started making component solutions
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  • Thursday 6/17--more minimal media work and meeting, started BL21 culture
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  • Friday 6/18--plasmid pSB74 arrived (!), already in some unspecified E coli, so plated them out. Transformed promoters (constitutive & IPTG inducible), terminator, and repressor (for inducible promoter) into BL21. Also ran BL21 copper growth assays for wide and narrow concentrations ranges. June the 19th--in which it is revealed that there was a transformation-fail Redid transformation, this time into LE392, set aside pSB74 containing cells in fridge
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  • Sunday 6/20--in evening inoculate 5 mL liquid cultures
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