Difference between revisions of "Part:BBa K4275011"
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− | + | PETase5-dockerin is an improved version of Super-5-mut PET hydrolase from the iGEM team TJUSLS_China (Part: BBa_K3715005). This high-efficiency, thermostable, durable super mutant consists of 11 mutation sites compared to the wild-type: S214H, I168R, W159H, S188Q, R280A, A180I, G165A, Q119Y, L117F, T140D, S121E. The improvement is implemented by fusing the original sequence design with a dockerin I domain at the C' terminal to allow its high-affinity anchorage onto the CipA scaffoldin and the rest of the polyester degradation complex. The catalytic domain of PETase5-t and the dockerin domain are interspaced with a medium-lengthed flexible GS linker (10 aa long) to avoid steric inhibitions. | |
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===Usage and Biology=== | ===Usage and Biology=== | ||
+ | The artificially-designed PETase5 - Dockerin I fusion protein could be tightly-anchored onto the CipA scaffoldin via the high-affinity Doc I: Coh I noncovalent interaction. The CipA primary scaffoldin is then tightly-anchored onto the secondary scaffoldin - OlpB, which is either anchored onto the cell surface of K.marxianus via ScGPI, or binds to E. coli's Cell-surface Nanobody3(Nb3). It is believed that the immobilization of the two enzymes (PETase5-t and MHETase-t) could increase their proximity and further enhance their synergy, whilst the affinity of carbohydrate-binding module 3 (CBM3) on the CipA scaffoldin towards PET fiber could further increase the catalytic efficiency of this degradation complex. | ||
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+ | ===Design consideration=== | ||
+ | 1. A 10 aa long GS linker (GGGGS)2 is appended following the Ser273 residue at the C' terminal of the original sequence. | ||
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+ | 2. The 79 amino acid long type-I dockerin domain is fused at the terminal of the GS linker, followed by a TEV site and a 6xhis affinity purification tag (HHHHHH). | ||
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Revision as of 09:14, 9 October 2022
PETase5-dockerin
PETase5-dockerin is an improved version of Super-5-mut PET hydrolase from the iGEM team TJUSLS_China (Part: BBa_K3715005). This high-efficiency, thermostable, durable super mutant consists of 11 mutation sites compared to the wild-type: S214H, I168R, W159H, S188Q, R280A, A180I, G165A, Q119Y, L117F, T140D, S121E. The improvement is implemented by fusing the original sequence design with a dockerin I domain at the C' terminal to allow its high-affinity anchorage onto the CipA scaffoldin and the rest of the polyester degradation complex. The catalytic domain of PETase5-t and the dockerin domain are interspaced with a medium-lengthed flexible GS linker (10 aa long) to avoid steric inhibitions.
Usage and Biology
The artificially-designed PETase5 - Dockerin I fusion protein could be tightly-anchored onto the CipA scaffoldin via the high-affinity Doc I: Coh I noncovalent interaction. The CipA primary scaffoldin is then tightly-anchored onto the secondary scaffoldin - OlpB, which is either anchored onto the cell surface of K.marxianus via ScGPI, or binds to E. coli's Cell-surface Nanobody3(Nb3). It is believed that the immobilization of the two enzymes (PETase5-t and MHETase-t) could increase their proximity and further enhance their synergy, whilst the affinity of carbohydrate-binding module 3 (CBM3) on the CipA scaffoldin towards PET fiber could further increase the catalytic efficiency of this degradation complex.
Design consideration
1. A 10 aa long GS linker (GGGGS)2 is appended following the Ser273 residue at the C' terminal of the original sequence.
2. The 79 amino acid long type-I dockerin domain is fused at the terminal of the GS linker, followed by a TEV site and a 6xhis affinity purification tag (HHHHHH).
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 88
Illegal NgoMIV site found at 142
Illegal NgoMIV site found at 169 - 1000COMPATIBLE WITH RFC[1000]