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The sequences of DNA elements for the GTH1 promoter and GCW61 anchor protein were from Pichia pastoris. To ensure flexibility in connecting to target fusion proteins, a GS linker ((GGSG)3) was added at the N-terminus of GCW61. We selected a thermostable xylanase from Streptomyces thermovulgaris6 as our protein of interest. All DNA fragments were synthesized by Integrated DNA Technologies (IDT) following the standard iGEM Part Registry Rule (RFC10)14, which includes prefix cutting sites EcoRI and XbaI, and suffix cutting sites SpeI and PstI. In the issue of the assembly of the fusion protein, we followed the rules created by the Albert-Ludwigs Universität Freiburg iGEM team in 2007 (Freiburg assembly method, officially named by iGEM HQs as RFC25)15. AgeI cutting site was introduced at C-terminus of the Xylanase gene without the stop codon, and NgoMIV and AgeI sites were introduced at the either end of the GS linker-GCW61 segment. | The sequences of DNA elements for the GTH1 promoter and GCW61 anchor protein were from Pichia pastoris. To ensure flexibility in connecting to target fusion proteins, a GS linker ((GGSG)3) was added at the N-terminus of GCW61. We selected a thermostable xylanase from Streptomyces thermovulgaris6 as our protein of interest. All DNA fragments were synthesized by Integrated DNA Technologies (IDT) following the standard iGEM Part Registry Rule (RFC10)14, which includes prefix cutting sites EcoRI and XbaI, and suffix cutting sites SpeI and PstI. In the issue of the assembly of the fusion protein, we followed the rules created by the Albert-Ludwigs Universität Freiburg iGEM team in 2007 (Freiburg assembly method, officially named by iGEM HQs as RFC25)15. AgeI cutting site was introduced at C-terminus of the Xylanase gene without the stop codon, and NgoMIV and AgeI sites were introduced at the either end of the GS linker-GCW61 segment. | ||
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Revision as of 08:24, 2 September 2024
PGTH1-Xylanase-GCW61
VECTOR DESIGN
Vector Design
The sequences of DNA elements for the GTH1 promoter and GCW61 anchor protein were from Pichia pastoris. To ensure flexibility in connecting to target fusion proteins, a GS linker ((GGSG)3) was added at the N-terminus of GCW61. We selected a thermostable xylanase from Streptomyces thermovulgaris6 as our protein of interest. All DNA fragments were synthesized by Integrated DNA Technologies (IDT) following the standard iGEM Part Registry Rule (RFC10)14, which includes prefix cutting sites EcoRI and XbaI, and suffix cutting sites SpeI and PstI. In the issue of the assembly of the fusion protein, we followed the rules created by the Albert-Ludwigs Universität Freiburg iGEM team in 2007 (Freiburg assembly method, officially named by iGEM HQs as RFC25)15. AgeI cutting site was introduced at C-terminus of the Xylanase gene without the stop codon, and NgoMIV and AgeI sites were introduced at the either end of the GS linker-GCW61 segment.
To create the vector for gene expression in P. pastoris, we utilized the yeast vector pZAHR, developed by Professor Hung-Jen Liu's lab at National Chung Hsing University. This vector is a Zeocin-selectable, AOX1-based Homologous Recombination vector designed specifically for gene knock-in applications in Pichia pastoris. It incorporates the AOX1 gene promoter and terminator to facilitate the integration of desired genes into the Pichia pastoris chromosome through homologous recombination. This process is typically executed following electroporation-directed yeast transformation, a method routinely employed in the Liu’s laboratory.