Team:Washington/Celiacs/Methods

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(Kunkel Mutagenesis)
(Using a Whole Cell Lysate Assay to Test Feasability of Mutants)
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==Using a Whole Cell Lysate Assay to Test Feasability of Mutants==
==Using a Whole Cell Lysate Assay to Test Feasability of Mutants==
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After the cells had been allowed to grow overnight, colonies were picked and used to inoculate a 96 well plate containing LB and kanamycin. This step allowed us to grow a representative amount of cells containing each mutation. After growing overnight at 37 degrees celcius cells from each well were transferred to another 96 well plate containing TB and kanamycin. These plates were incubated at 37 degrees celcius and later induced using IPTG. After induction, we incubated the plates at 18 degrees celcius overnight. We then lysed the cells and tested the supernatant for proteolytic activity towards PQLP. The mutants were tested against wild-type kumamolisin and ScPEP, an enzyme currently used for the treatment of gluten intolerance via proteolysis. The assay we used was not highly accurate in terms of actual activity. However, what the assay allowed us to do was determine activity relative to our controls. This allowed us to determine which mutants were worth purifying to get more accurate activity data.
==Purifying Mutants to Accurately Assess Activity==
==Purifying Mutants to Accurately Assess Activity==
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Revision as of 00:00, 10 September 2011

Contents

Redesigning Kumamolisin to Have Higer Activity at Low pH

Using Foldit to Produce Mutations

In order to create mutations from wild-type kumamolisin, we first loaded the enzyme structure into the protein editing game Foldit. Foldit allows the user to modify the way in which a protein folds by changing the amino acid sequence. Using Foldit, we modified the amino acid residues around the active site of kumamolisin which contained within it a Proline-Glutamine-Lysine-Proline (PQLP) motif found throughout the gliadin peptide of gluten. With the PQLP locked in place along with the key active site amino acid residues, mutations were made which appeared to stabilize PQLP within the active site. Using this method, we produced several mutants at a time which could potentially increase the enzyme's proteolytic activity towards gliadin.

Mutagenizing Kumamolisin

Producing ssDNA

Once we had obtained feasible mutants from the Foldit program, we ordered these mutations in oligonucleotide primers to be used in Kunkel mutagenesis. To perform the mutagenesis, we first transformed the plaasmid containing wild-type kumamolisin into chemically competent cells of Escherichia coli CJ236. These cells were then grown and harvested for their single stranded DNA (ssDNA).

Kunkel Mutagenesis

Using ssDNA as a template, we annealed oligo nucleotides in a PCR block to increase specific binding. The primer was then extended on the ssDNA using T7 DNA polymerase. We then dialyzed the DNA to remove salts introduced in previous steps. We then added the DNA to cuvettes containing electrically competent E. coli BL21* cells. These cells were then pulsed with electricity to allow the uptake of the newly mutagenized DNA. After growing the cells for an hour in TB, we plated the cells on LB agar containing kanamycin.

Using a Whole Cell Lysate Assay to Test Feasability of Mutants

After the cells had been allowed to grow overnight, colonies were picked and used to inoculate a 96 well plate containing LB and kanamycin. This step allowed us to grow a representative amount of cells containing each mutation. After growing overnight at 37 degrees celcius cells from each well were transferred to another 96 well plate containing TB and kanamycin. These plates were incubated at 37 degrees celcius and later induced using IPTG. After induction, we incubated the plates at 18 degrees celcius overnight. We then lysed the cells and tested the supernatant for proteolytic activity towards PQLP. The mutants were tested against wild-type kumamolisin and ScPEP, an enzyme currently used for the treatment of gluten intolerance via proteolysis. The assay we used was not highly accurate in terms of actual activity. However, what the assay allowed us to do was determine activity relative to our controls. This allowed us to determine which mutants were worth purifying to get more accurate activity data.

Purifying Mutants to Accurately Assess Activity

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