Composite

Part:BBa_K3711070

Designed by: Jiacheng Shi   Group: iGEM21_HUST-China   (2021-10-03)


Panb1-crtE-AOX1 Terminator


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal XhoI site found at 124
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal AgeI site found at 1052
  • 1000
    COMPATIBLE WITH RFC[1000]


Description

This is a composite part for intracellular expression of crtE. Panb1 is a constitutive promoter in yeast, which is expressed under anaerobic conditions, while under aerobic conditions, Panb1, as a repression target of ROX1, is inhibited. When Panb1 initiates the expression, crtE is expressed and participates in the production from Farnessee pyrophosphate (FPP) to Geranylgeranyl pyrophosphate (GGPP).

Usage and Biology

CrtE is derived from Erwinia, encodes Geranylgeranyl pyrophosphate synthase and participates in the synthesis of carotenoids. The early steps of carotenoid biosynthesis pathway include the synthesis of Geranylgeranyl pyrophosphate (GGPP), the condensation of two molecules of GGPP into octahydrolycopene and desaturation of octahydrolycopene into plant fluorene, β-carotene, protolycopene and lycopene. The crtE encodes Geranylgeranyl pyrophosphate synthase which synthesizes GGPP. Laboratory studies have shown that E.coli transformed with E.herbicola carotenoid synthesis gene could resist higher level of LTV radiation and phototoxic environment, indicating that the synthesis of carotenoid may be very important for the survival of E.herbicola in nature.

Molecular cloning

Not quite to what we expect, after repeated transfection to the yeast, only a few products are expressed inside of eukaryotic system. Because of the large molecular weight and various types of some of our protein, we suspect that the common signal peptide we use, α-factor, is not enough to bring our protein out of the cell. While there is some of the genes without detectable products and we are hoping to get higher expression level, new primers for PCR are designed to ignore α-factor from our target gene in PCR. Then, likewise, we reconstruct this series of plasmid without α-factor through similar double-enzyme digestion and reconnection which insert our target genes right behind Panb1 promoter.

Figure1:Plasmid construction and colony PCR results of Panb1-crtB-AOX1 Terminator, Panb1-crtE-AOX1 Terminator and Panb1-FMO-AOX1 Terminator transformed E.coli

The bands of Panb1-crtB-AOX1 Terminator (less than 2000bp), Panb1-crtE-AOX1 Terminator (less than 2000bp) and Panb1-FMO-AOX1 Terminator (2500bp) from colony PCR are identical to the theoretical lengths of 1859bp, 1838bp and 2437bp estimated by the designed primer locations (promoter to terminator), which could demonstrate that these target plasmid are successfully constructed.
To solve this, we reconstruct plasmids without the signal peptide and try to do intracellular expression. This is aim at all the undetectable or low-expressed genes.

Figure2: Colony PCR result of yeast after electroporation of reconstructed plasmid without the signal peptide

The bright bands are identical to the theoretical lengths, which could demonstrate that this target plasmid had successfully transformed into yeast. Target genes are confirmed exist in the yeast of multiple bands, which could be the result of polluted electroporation cup.

SDS-PAGE

After verification of successful transfection, we can’t test the protein directly due to intracellular expression. So, we extract the total protein in yeast and go for a purification through Nickel-affinity chromatography column, then apply SDS-PAGE to separate target protein from the large amount and various type of total protein to confirm whether our target protein could be expressed and value its expression level quantitatively.

Figure3: SDS-PAGE result of crtE after purification of yeast total protein extraction product through Nickel-affinity chromatography column

Different from impure or permeate bands, the target protein located around 50kDa, bigger than the theoretical 33.42kDa but still within explainable and acceptable range of glycosylation modification. crtE could be confirmed as successfully expressed.

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