Difference between revisions of "Part:BBa K4275008"

Latest revision as of 00:57, 14 October 2022

FAST-PETase-t

FAST-PETase-t is a dockerin-fused variant of free FAST-PETase (BBa_K4275007). The enzyme carries the same amino acid mutations (N233K, R224Q, S121E, D186H, and R280A)[1] as the former and shares all the common sequences in the CDS, except the C' terminal fusion of a type-I dockerin domain in this enzyme. The catalytic domain of FAST-PETase-t and the dockerin domain are interspaced with a medium-lengthed flexible GS linker (10 aa long) to avoid steric inhibitions. The type-I dockerin domain forms high-affinity non-covalent interaction with type-I cohesins on the cipA scaffoldin.

Figure 1 The 3D structure of the protein predicted by Alphafold2.

Usage and Biology

The artificially-designed FAST-PETase - 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)(BBa_K4275026). It is believed that the immobilization of the two enzymes (FAST-PETase-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.

Sequence and Features

Assembly Compatibility:

10
COMPATIBLE WITH RFC[10]
12
COMPATIBLE WITH RFC[12]
21
COMPATIBLE WITH RFC[21]
23
COMPATIBLE WITH RFC[23]
25
COMPATIBLE WITH RFC[25]
1000
COMPATIBLE WITH RFC[1000]

References

1. Lu, Hongyuan et al. "Machine Learning-Aided Engineering Of Hydrolases For PET Depolymerization". Nature, vol 604, no. 7907, 2022, pp. 662-667. Springer Science And Business Media LLC, https://doi.org/10.1038/s41586-022-04599-z.

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 <partinfo>BBa_K4275008 short</partinfo>
+FAST-PETase-t is a dockerin-fused variant of free FAST-PETase (BBa_K4275007). The enzyme carries the same amino acid mutations (N233K, R224Q, S121E, D186H, and R280A)[1] as the former and shares all the common sequences in the CDS, except the C' terminal fusion of a type-I dockerin domain in this enzyme. The catalytic domain of FAST-PETase-t and the dockerin domain are interspaced with a medium-lengthed flexible GS linker (10 aa long) to avoid steric inhibitions. The type-I dockerin domain forms high-affinity non-covalent interaction with type-I cohesins on the cipA scaffoldin.
-<!-- Add more about the biology of this part here
+[[File:GreatBay SCIE--FAST-PETase-t.png|950px]]
-===Usage and Biology===
+<p align="center"><b>Figure 1</b> The 3D structure of the protein predicted by Alphafold2. </p>
+==Usage and Biology==
+The artificially-designed FAST-PETase - 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 <i>K.marxianus</i> via ScGPI, or binds to <i>E.coli</i>'s Cell-surface Nanobody3(Nb3)(BBa_K4275026). It is believed that the immobilization of the two enzymes (FAST-PETase-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.
+==Sequence and Features==
-<!-- -->
-<span class='h3bb'>Sequence and Features</span>
 <partinfo>BBa_K4275008 SequenceAndFeatures</partinfo>
+==References==
+. Lu, Hongyuan et al. "Machine Learning-Aided Engineering Of Hydrolases For PET Depolymerization". Nature, vol 604, no. 7907, 2022, pp. 662-667. Springer Science And Business Media LLC, https://doi.org/10.1038/s41586-022-04599-z.
 <!-- Uncomment this to enable Functional Parameter display