In the initial stage of construction, we adapted seamless cloning of homologous recombination. Unique homologous sequences at front and rear ends of joining parts were designed based on Gibson assembly seamless cloning principle. After PCR, the parts underwent recombination reaction in the recombination enzyme system from some companies. Unfortunately, the products of ligation fell short of our expectation and we hardly found any explanation to this. Later, the restricted enzyme and T4 ligation enzyme were used to construct the devices, which is a less efficient way of construction. Most devices and a few systems were successfully constructed and we will continue to complete our work in the future. More details please click here

Chassis Yeast

Pichia pastoris, a kind of methylotrophic yeast separated by Ogata in 1969, can grow in culture media with methanol as the only carbon source.[1].P.pastoris, being the second widely used exogenous protein expression system, is widely applied in expression of exogenous protein. Pichia pastoris expression system has good post-translational modification function and secretion efficiency. Compared with Saccharomyces cerevisiae expression system, its glycosylation degree is low and can be cultured in high density. After sequencing the whole genome of Pichia pastoris in 2009[2], its genetic background became clear, which further promoted the research of Pichia pastoris expression system. At present, more than 5000 exogenous proteins have been successfully expressed in P. pastoris, and P. pastoris has become one of the most commonly used expression systems.[3].

Xylose Responding Regulation System

In order to express the genes at the right time, we introduced a Xylose Responding Regulation System. The system includes two promoters: the constitutive promoter Panb1, applied in the dye and perm devices and could be inhibited by repressor ROX1[4]; and the xylose induced promoter Pynr071c[5], applied in the decolorization and straightening devices. And the two promoters have been proved that would express in Saccharomyces cerevisiae, so we try them in P.pastoris.

Expression of parts

As for our functional genes, they had been expressed in some chassis. FMO BBa_K3711003 in E.coli, Laccase BBa_K3711004 in P.pastoris[6], crtE BBa_K3711005, crtB BBa_K3711006, crtI BBa_K3711006 in S. cerevisiae[7], 4CL BBa_K3711009, ACC BBa_K3711010, CUS BBa_K3711011 in E.coli, curA BBa_K3711012 in P.pastoris[8]. So we try to express them in eukaryotic system P.pastoris GS115.

The pigments can be used to dye

Before our experiments, indigo and curcumin had been researched in dye[9][10].Then we had researched a lot about dye with the three pigments. We dyed the hair successfully and compared it with the hair dyed with the traditional chemical way. Please refer to result for more information.

The Color of Hairs Can Be Faded

In our design, we have gained information from papers that lipoxygenase can fade the color produced by lycopene[11], curcumin reductase can fade curcumin[12], and indigo can be faded by laccase[13]. We also finished some experiments to prove these enzymes can work as we thought. (Results)

The Short Peptides Can Be Used to Perm

We have known that traditional perming ways use strong allergen to open the cortex of hairs. To change and improve this, we designed a new short peptide PepACS, consisting of PepA, PepC and a human lung protein surfactant B called SPB, as calculated and optimized by modeling. The peptide is small enough to enter the cortex through the cuticle and form re-conformed disulfide bonds with α-keratins, thus changing the shape of hair[14]. We also designed some experiments to prove it and more information please refer to result.

Use Our Products in Real Life

For the use of our products in reality, we have designed two main apparatuses. The fermentation bottle is used to produce pigments and short peptides. And the dyeing comb is used to change the color and shape of your hairs. With the help of them, you can finish the process of perming and dyeing. Please refer to Hardware for more information.