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<h3><strong>Parts Submitted</strong></h3> | <h3><strong>Parts Submitted</strong></h3> | ||
− | <li>BBa_K1885001 | + | <li>Gibson-assembled pSB1C3 with novel fusion osmY-PETase A1 (BBa_K1885001) |
<ul> | <ul> | ||
− | |||
<li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 1 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | <li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 1 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | ||
</ul> | </ul> | ||
</li> | </li> | ||
− | <li>BBa_K1885002 | + | <li>Gibson-assembled pSB1C3 with novel fusion osmY-PETase A0.58 (BBa_K1885002) |
<ul> | <ul> | ||
− | |||
<li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.58 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | <li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.58 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | ||
</ul> | </ul> | ||
</li> | </li> | ||
− | <li>BBa_K1885005 | + | <li>Gibson-assembled pSB1C3 with novel fusion osmY-PETase A0.33 (BBa_K1885005) |
<ul> | <ul> | ||
− | |||
<li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.33 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | <li>This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.33 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.</li> | ||
</ul> | </ul> |
Revision as of 15:15, 19 October 2016
Parts
Anderson Promoters
- Selected as a relatively weak promoter against which to compare the expression of the PETase construct
- Selected as a relatively moderately strong promoter against which to compare the expression of the PETase construct
- Selected as a relatively strong promoter against which to compare the expression of the PETase construct
Tags
Others
Parts Submitted
- This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 1 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.
- This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.58 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.
- This part offers efficiency in the initial step in the bioremediation of polyethylene terephthalate (PET): the production of metabolizable monomers (ethylene glycol and terephthalate) through hydrolysis. PETase catalyzes the hydrolysis of PET into terephthalate and ethylene glycol monomers. The N-terminal osmY protein and its signal peptide fused to PETase, with serine-glycine peptide’s repeating intervention, serves to secrete PETase out of the cell (this reacts with PET in the cell's local environment). The Anderson promoter, with a relative strength of 0.33 that precedes the fusion protein in the plasmid, serves to constitutively express the fusion PETase, enhancing the degradation of environmental PET. This part utilizes the pSB1C3 backbone and confers resistance to chloramphenicol.