4CL

Sequence and Features

Usage and Biology

In the curcumin biosynthesis pathway, 4CL is located in the upstream of the metabolic pathway and plays a key role in the synthesis of phenylpropane derivatives. 4CL is the branching enzyme that connects the lignin synthesis pathway and flavonoid pathway, controls the metabolic synthesis direction of phenylpropane derivatives, and is the key enzyme in the phenylpropane synthesis pathway. 4CL acts on different substrates to produce acyl CoA thiolipids for subsequent reactions. Through the synthesis of these phenylpropane derivatives CoA lipids (e.g. p-gumaroyl CoA, feruloyl CoA, p-coumaryl CoA), downstream enzymes use them as substrates to form different phenylpropane metabolites. Therefore, 4CL enzyme plays a switching role in the biosynthesis of curcumin. In the curcumin biosynthesis pathway, the role of 4CL in dipeptide-CoA synthase DCS curcumin synthase CURS is to catalyze cinnamic acid to produce cinnamyl-CoA and make the reaction to the direction of curcumin production. In the curcumin synthase CUS pathway, ferulic acid is used to catalyze the formation of gumaroyl-CoA in order to facilitate the following reaction.

Background related to curcumin

As a natural compound, curcumin is good at fighting against inflammatory and cancer. Derived from the rhizomes of some plants in the family Curphinae, Ceraceae, curcumin is a diketone compound existing in rhizoma curcumae longae for about 3% to 6%. Rarely, there is little botanic pigment with diketone structure like it. The outward appearance of it is an orange-yellow crystal powder, tastes slightly bitter and insoluble in water. In food production, it is mainly used for intestinal products, canned products, sauced products and others. Aside from cancer, curcumin could also decrease the blood fat, benefit the gallbladder, be against oxidation and according to some reports, contribute to the treatment of drug-resistant tuberculosis.

Molecular cloning

Using E.coli for amplification, we extract and digest them with Bgl I or Sal I to get linear plasmid, which could be integrated into yeast genome to avoid getting lost while being frozen. Then, concentration of linear plasmid is also applied to achieve higher copy number and higher expression level. Several rounds of electroporation later, we successfully get all the plasmid with AOX1 as promoter into yeast.

SDS-PAGE

After confirmation from colony PCR and sequencing, we using the successfully integrated yeast for expression. At first, we try to detect our target protein in the supernatant since there is signal peptide.

Hair dyeing experiment

We measured the standard curves of three pigments before using them for hair dyeing experiment. We also found that the amount of melanin contained in hair can have a significant effect on hair dyeing outcomes. Therefore, we define different colors of hair based on bleaching.

We have gained the best dye conditions of three kinds of hair dye(indigo, curcumin and lycopene) at a certain concentration. Under optimal conditions, we dyed 4-9 degrees of hair to get a series of dyeing discs. And we found that as for the three colors selected for the experiment, bleach the hair to 8 degrees could achieve a bright coloring effect.

Chart of the best condition of hair dye

Under the best conditions, we dyed the hair from 4 degree to 9 degree, and got a series of colors. It is found that it only needed to be bleached to 8 degree so that the hair would show a bright color for all three kinds of dye.

Problem: The coloration rate of the curcumin aqueduct solution is low
Solution: We carried out the same dye addition and elution experiments as lycopene, and found that alum, potassium tartarate and citric acid cannot improve the coloring effect of curcumin. The data showed that curcumin is soluble in ethanol, and the optimal coloring temperature is 50 degree, so we adjusted the solvent to 33% ethanol solution. The process of coloring was conducted in the oven at 50 degrees, and the results showed that the coloring effect significantly improved.

After finishing the solution experiment, we try to mix the natural pigment into a dye that can be applied directly to the hair. At present, lycopene dye and curcumin dye with NO.1 cream matrix as carrier are obtained, and natural essence is added to improve the odor of dye paste. Indigo is an oxidizing dye with special properties, so we designed a timely fermenter. In this way, we can use our product right now when indigo is produced and reduced to indigo white.

EDTA is added to the curcumin paste to prevent metal ions from interfering with the effect -- for example, Fe3 + producing a reddish-brown tint.

Curcumin dying cream

Color fastness test
Color fastness is an important aspect to measure the effect of dye, so we design a set of elution scheme and test the color fastness of three kinds of natural pigment dye products and the same color traditional dye paste. The results showed that the color fastness of the natural pigment dyes was better than that of the traditional dyes.