Difference between revisions of "Part:BBa K3039005"
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<img style="width:50%; margin-left:auto; margin-right:auto; display:block; margin-top: 10px;" src="https://static.igem.org/mediawiki/parts/8/8d/T--Exeter--MHETaseS416AF242N.png"> | <img style="width:50%; margin-left:auto; margin-right:auto; display:block; margin-top: 10px;" src="https://static.igem.org/mediawiki/parts/8/8d/T--Exeter--MHETaseS416AF242N.png"> | ||
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<p style = "padding:6%; padding-top:2%;"> Western blot of the soluble fraction of Arctic Express strain showing expression of all mutants. The PageRuler Plus prestained protein ladder was used and labeled with the corresponding sizes. The negative control is labeled with 1. This part (MHETase S416A_F424N) is labeled with 7. A clear band is visible with a size of about 65 kDa which is the size of MHETase with the His tag attached to it.</p> | <p style = "padding:6%; padding-top:2%;"> Western blot of the soluble fraction of Arctic Express strain showing expression of all mutants. The PageRuler Plus prestained protein ladder was used and labeled with the corresponding sizes. The negative control is labeled with 1. This part (MHETase S416A_F424N) is labeled with 7. A clear band is visible with a size of about 65 kDa which is the size of MHETase with the His tag attached to it.</p> | ||
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<h1>Purification graphs</h1> | <h1>Purification graphs</h1> |
Revision as of 16:43, 21 October 2019
BHETase 1
Usage and Biology
The enzymes PETase and MHETase were first discovered in Ideonella sakaiensis in 2016 by a group of researchers in Japan. These enzymes were found to degrade polyethylene terephthalate (PET) into its monomers, terephthalic acid (TPA) and ethylene glycol (EG). PETase degrades PET into Mono-(2-hydroxyethyl)terephthalic acid (MHET), Bis(2-Hydroxyethyl) terephthalate (BHET) and TPA, the main product being MHET. MHET is further degraded by MHETase into TPA and EG. We are aiming to use mutants of these enzymes to degrade the microfibres that are coming off clothing during washing cycles. The enzymes would be secreted into a filter that captures the microfibres. This sequence is the Escherichia coli K12 (E. coli K12) codon optimized DNA of the S416A_F424N mutant MHETase, with an attached His tag. The His tag was attached in order to more easily identify the enzymes. These mutations have been reported in past papers to increase the activity of MHETase.
The native predicted signal peptide (Met1-Ala19) was removed from the WT MHETase sequence (Palm et al 2019) and replaced with a start codon (Met), however all mutations are numbered according to the full-length WT sequence. The amino acid sequence was submitted to Twist Bioscience who codon optimised the sequence for E. coli, ensuring that there were no forbidden restriction sites, BsaI or SapI, to allow for potential TypeIIS assembly. The resulting CDS was synthesised and cloned, by Twist, into pET28. This added a 63 AA His-tag and thrombin cleavage site to the N-terminal of the protein, a T7 promoter and T7 terminator.
Characterisation
In order to characterise our part and determine the rate of its activity and prove its functionality we have run a series of experiments. After transforming the Arctic Express, Rosetta Gami and BL21 DE3 strains of E. coli with our plasmid we induced the expression of the enzymes using IPTG. In order to confirm that the enzyme expression has been successful we ran a western blot which showed the presence of the enzyme in the soluble fractions of the sonicated cells. Afterwards the enzyme was purified and used in assays to show its functionality and determine the rate of its activity.
Expression in E.coli
Western blot of the soluble fraction of Arctic Express strain showing expression of all mutants. The PageRuler Plus prestained protein ladder was used and labeled with the corresponding sizes. The negative control is labeled with 1. This part (MHETase S416A_F424N) is labeled with 7. A clear band is visible with a size of about 65 kDa which is the size of MHETase with the His tag attached to it.
Purification graphs
Nickle column
enter text here
BHET Assay Graphs
BHETase 1 Assay2>
BHET Standard Curve
MHET Standard Curve
TPA Standard Curve
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal PstI site found at 958
- 12INCOMPATIBLE WITH RFC[12]Illegal PstI site found at 958
- 21COMPATIBLE WITH RFC[21]
- 23INCOMPATIBLE WITH RFC[23]Illegal PstI site found at 958
- 25INCOMPATIBLE WITH RFC[25]Illegal PstI site found at 958
Illegal NgoMIV site found at 297 - 1000COMPATIBLE WITH RFC[1000]