Screening for hyper-accumulating lipid mutants in Aurantiochytrium limacinum using high-throughput fluorescence-based method.
- Author:
Guangqian DUAN
1
;
Shuoshuo LI
2
;
Xin LI
2
;
Kaiyao HUANG
1
Author Information
- Publication Type:Journal Article
- Keywords: Nile red staining; docosahexaenoic acid (DHA); high-throughput screening; oil droplets
- MeSH: Bioreactors; Docosahexaenoic Acids; Mutagenesis; Staining and Labeling; Stramenopiles
- From: Chinese Journal of Biotechnology 2019;35(7):1335-1347
- CountryChina
- Language:Chinese
- Abstract: Docosahexaenoic acid (DHA) has many unique physiological functions such as promoting the development of brain and retina in infants. Therefore, it is widely applied to food, pharmacy, breeding and other industries. To obtain engineered strains of Aurantiochytrium limacinum SR21 suitable for industrial application with increased lipid and DHA production, we designed a simple, fast, accurate and high-throughput screening method based on Nile red staining of oil droplets. First, ultraviolet C (UVC) mutagenesis was used to generate a random mutant library of A. limacinum. Second, screening conditions were optimized including staining conditions of Nile red and the sorting criterion. Thereby, three putative high-lipid mutants (D03432, D05106 and D01521) were selected from the mutant library containing 3 648 mutated clones. The three mutants grew faster and produced higher amounts of lipids and DHA compared to wild type (WT). In 100 mL cultures, the lipid content of D03432 and D05106 mutants reached 64.74% and 63.13% of dry cell weight respectively, whereas the wild strain exhibited only 43.19%. DHA yield in these two mutants were even 2.26-fold and 2.37-fold higher than that of the wild strain. Experiment with 5 L fermentor further confirmed that D03432 and D05106 mutants had better performance than the wild strain on DHA yield (45.51% and 66.46% more than that of the wild strain, respectively), and demonstrated their high potential for industrial application. This work not only generated several high-DHA content mutants with high potential for industrial use, but also provided vital guidance for high-throughput screening of lipid hyper-accumulating mutants in other oil-producing microorganisms.
