Data from: Preparation of lutein through biotransformation in a microemulsion medium
Data files
Apr 07, 2026 version files 48.66 MB
Abstract
To address the issues of low purity, poor stability, and environmental pollution associated with traditional organic solvent extraction methods for lutein production, and to meet the requirements for food-grade lutein in industrial applications, this study developed a microemulsion system using n-propyl acetate as the oil phase, Tween 80 as the surfactant, and ethanol as the co-surfactant. A microemulsion with 60% water content was successfully formulated as the reaction medium. Lipase was introduced to catalyze the hydrolysis of lutein esters, followed by optimization of key reaction parameters and evaluation of the stability of the resulting free lutein. The results demonstrated that under optimized conditions, the conversion rate of lutein ester reached 72.53 ± 2.80 %, representing a 153.87 % improvement compared to the 28.57 ± 1.81 % conversion achieved when using an acetonitrile-aqueous solution as the enzymatic reaction medium. Furthermore, the lutein microemulsion exhibited superior storage and thermal stability relative to lutein in ethanol solution. Notably, all components of the microemulsion system are approved food additives, making the system suitable for use in food manufacturing. This work provides a solid scientific foundation and a feasible technical pathway for the production of food-grade lutein. With further research, this approach has the potential to become an efficient and environmentally sustainable method for the extraction of water-insoluble pigments.
Dataset DOI: 10.5061/dryad.ghx3ffc24
This document presents the data and charts related to the research paper "Preparation of lutein through biotransformation in a microemulsion medium."
Description of the data and file structure
This repository contains two .zip compressed files.
“Preparation_of_lutein_through_biotransformation_in_a_microemulsion_medium-Figures.zip” contains 25 image files related to the data. The image format is tif.
“Preparation_of_lutein_through_biotransformation_in_a_microemulsion_medium-Data.zip" contains 8 .csv files, which record all the measurement data in this article.
And this Readme file.
Preparation_of_lutein_through_biotransformation_in_a_microemulsion_medium-Figures.zip
Fig. 1, 2, 3, 9, and 11 in the compressed file were drawn using the Origin software. Fig. 4, 5, 6, 7, and 8 were obtained through the response surface optimization using the Expert Design software. Fig. 10 was obtained through TEM imaging. The above data can all be obtained by referring to “Preparation of lutein through biotransformation in a microemulsion medium - Data.csv."
Preparation_of_lutein_through_biotransformation_in_a_microemulsion_medium-Data.zip
This document contains the original data of all the results of the paper, and each piece of data has been given a name for easy reference.
Effect of Microemulsion with Different Water Mass Fractions on Lipase Activity and Lutein Ester.csv
This file contains three columns of data, Are variables: Water-to-oil ratio, and related results: Absorbance, Relative enzyme activity (%). All experiments were conducted at least in triplicate.
Effect of Microemulsion with Different Water Mass Fractions on Lutein Ester Conversion Rate.csv
This file contains two columns of data, Are variables: Water-to-oil ratio, and related results: Lutein ester conversion rate(%). All experiments were conducted at least in triplicate.
Factors Affecting the Lutein Esters Conversion Rate.csv
This file records the data of the single factor experiment to optimize the conversion rate of lutein ester. It contains four variables: Substrate to liquid radio, Reaction temperature, Reaction time, Lipase dosage and the data to reflect the relevant results: Lutein ester conversion rate (%). All experiments were conducted at least in triplicate.
Infrared spectrum of lutein ester before and after conversion.csv
The data obtained in this document were determined by Infrared spectrum. This file contains three columns of data, Are variables: Wavenumbers, and related results: Infrared spectrum of lutein ester before and after conversion.
Particle size and PDI of blank microemulsion and lutein microemulsion.csv
This file contains particle size and PDI data for blank microemulsions and lutein microemulsions. All experiments were conducted at least in triplicate.
Pseudo-ternary phase diagram of microemulsion.csv
The compositions of the microemulsions in this paper are Tween 80,ethanol,N-propyl, and water and are described by pseudo-three-phase diagrams. The data related to the pseudo-three-phase diagrams are included in this file.
Response Surface Test Design and Results.csv
This file contains the data of response surface optimization of lutein ester conversion rate. For picture files, please refer to Preparation_of_lutein_through_biotransformation_in_a_microemulsion_medium-Data.zip
Stability determination of lutein microemulsion.csv
This file contains three data, namely Storage stability, thermal stability and acid-base stability of blank microemulsion and lutein microemulsion.
By measuring the Lutein 5, 10, 15, 20, 25, 30, 40, 50, 65, 80 d retention rate (%), get Storage stability.
The Lutein microemulsion and blank microemulsion were placed at 25°C, 40 °C, 50 °C, and the thermal stability was obtained by measuring the Lutein retention rate (%) at 1, 2, 3, 4, 5, 10, 15, 20 days.
The pH value of Lutein microemulsion and blank microemulsion was adjusted to 5,7,9, and the acid-base stability was obtained by measuring the Lutein retention rate (%) at 1, 2, 3, 5, and 7 days.
Code/software
The response surface optimization results were obtained using the Expert-Design 13.0 software. More reference information can be obtained by inputting the initial data into this software.