Team:UNICAMP-Brazil/Notebooks/October 2
From 2009.igem.org
(→New strategy: pGEM) |
(→Cre-Recombinase + pSB1A3 ligation) |
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==''' YeastGuard '''== | ==''' YeastGuard '''== | ||
- | ==== | + | ====[https://2009.igem.org/Team:UNICAMP-Brazil/Protocols/pGEMStrategy New Strategy: pGEM]==== |
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*<p style=”text-align:justify;”>This evening we had a wonderful idea to try to solve our problem in screening the new biobricks in LB plates. While we wait the new primers to arrive, we decided to use pGEM T-easy vector as a way to add the ''EcoR''I restriction site in the PCR products that already have ''Xba''I and ''Spe''I sites. This strategy will permit the part to be ligated to the biobrick vector avoiding unwanted ligations between the cohesive ends and consequently the hard screening we were performing. Click [https://2009.igem.org/Team:UNICAMP-Brazil/Protocols/pGEMStrategy here] to see the hole strategy.</p> | *<p style=”text-align:justify;”>This evening we had a wonderful idea to try to solve our problem in screening the new biobricks in LB plates. While we wait the new primers to arrive, we decided to use pGEM T-easy vector as a way to add the ''EcoR''I restriction site in the PCR products that already have ''Xba''I and ''Spe''I sites. This strategy will permit the part to be ligated to the biobrick vector avoiding unwanted ligations between the cohesive ends and consequently the hard screening we were performing. Click [https://2009.igem.org/Team:UNICAMP-Brazil/Protocols/pGEMStrategy here] to see the hole strategy.</p> | ||
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====Cre-Recombinase + pSB1A3 ligation==== | ====Cre-Recombinase + pSB1A3 ligation==== | ||
- | * After successfully digesting both insert and vector with | + | * After successfully digesting both insert and vector with ''Xba''I and ''Spe''I restricion enzymes, we performed today the ligation between them, according to [https://2009.igem.org/Team:UNICAMP-Brazil/Protocols/T4_DNA_Ligase Protocol 11]. |
* As we purified both sequences, we really expect an correctly ligation this time, hence resulting in no religation between the vector and it's part (RFP device). | * As we purified both sequences, we really expect an correctly ligation this time, hence resulting in no religation between the vector and it's part (RFP device). | ||
Latest revision as of 03:41, 22 October 2009
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