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Team:Harvard/Lambda Red
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| - | + | To see how we used lambda red to build our selection system, go to our [https://2011.igem.org/Team:Harvard/Results/One-Hybrid_Selection#Building_the_selection_strain:_Lambda_Red_Recombineering Results section]. | |
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| - | + | For a step-by-step procedure, see our [https://2011.igem.org/Team:Harvard/Protocols#Lambda_Red Lambda Red Protocols]. | |
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| + | ==Using Lambda Red== | ||
| + | For efficient genome editing using lambda red, you can use [https://2011.igem.org/Team:Harvard/Results/Biobricks#EcNR2_strain_.28BBa_K615002.29 the ECNR2 strain] with your own insertion construct and overhangs (i.e. 30-50bp homology to the locus in which the gene is being inserted). The ECNR2 strain is especially suited for lambda red recombineering, because in addition to having the lambda-phage based recombination system, it also has the mutS gene knocked out to reduce DNA mismatch repair activity, so that the insert (which will not match the original genomic code) is less likely to be excised. To obtain this strain, you can make a request at [http://partsregistry.org/Part:BBa_K615002 the Registry of Standard Biological Parts.] | ||
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Figure 1. How to perform lambda red. First, we run a PCR to get the required insertion product (zeocin in this example), and then use lambda red recombination to insert the desired product into the genome. | Figure 1. How to perform lambda red. First, we run a PCR to get the required insertion product (zeocin in this example), and then use lambda red recombination to insert the desired product into the genome. | ||
[[File:Lambda_Red,_Tech.gif |frameless|915px]] | [[File:Lambda_Red,_Tech.gif |frameless|915px]] | ||
Revision as of 16:48, 15 October 2011
Overview | MAGE | Chip-Based Synthesis | Lambda Red | Protocols
To see how we used lambda red to build our selection system, go to our Results section.
For a step-by-step procedure, see our Lambda Red Protocols.
Using Lambda Red
For efficient genome editing using lambda red, you can use the ECNR2 strain with your own insertion construct and overhangs (i.e. 30-50bp homology to the locus in which the gene is being inserted). The ECNR2 strain is especially suited for lambda red recombineering, because in addition to having the lambda-phage based recombination system, it also has the mutS gene knocked out to reduce DNA mismatch repair activity, so that the insert (which will not match the original genomic code) is less likely to be excised. To obtain this strain, you can make a request at the Registry of Standard Biological Parts.
Figure 1. How to perform lambda red. First, we run a PCR to get the required insertion product (zeocin in this example), and then use lambda red recombination to insert the desired product into the genome. 915px
References:
