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Increasing lipid accumulation in Chlamydomonas by serial knocking out of DYRKP1 kinase and ADP-glucose pyrophosphorylaseopen access

Authors
Kim, MinjaeKim, Ji-yeonHan, KyunghaShin, Hyeon-hoJin, Eonseon
Issue Date
Aug-2025
Publisher
BioMed Central
Keywords
Glucose 1 Phosphate Adenylyltransferase; Nitrogen; Phosphotransferase; Starch; Fatty Acids; Glucose-1-phosphate Adenylyltransferase; Nitrogen; Starch; Dyrkp1 Kinase; Glucose 1 Phosphate Adenylyltransferase; Nitrogen; Phosphotransferase; Starch; Unclassified Drug; Fatty Acid; Algal Growth; Article; Biosynthesis; Carbon Partitioning; Cell Wall; Chlamydomonas; Chlamydomonas Reinhardtii; Controlled Study; Fatty Acid Analysis; Lipid Composition; Lipid Storage; Metabolic Regulation; Mixotroph; Mutant; Nonhuman; Protein Expression; Gene Knockout; Genetics; Lipid Metabolism; Metabolic Engineering; Metabolism; Fatty Acids; Gene Knockout Techniques; Glucose-1-phosphate Adenylyltransferase; Lipid Metabolism; Metabolic Engineering; Nitrogen; Starch
Citation
Microbial Cell Factories, v.24, no.1, pp 1 - 10
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
Microbial Cell Factories
Volume
24
Number
1
Start Page
1
End Page
10
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208714
DOI
10.1186/s12934-025-02824-8
ISSN
1475-2859
1475-2859
Abstract
Microalgae are promising sustainable feedstocks for biodiesel production. Among the primary carbon reservoirs in microalgae, starch and lipids are the main targets for metabolic engineering aimed at enhancing productivity. Redirecting carbon flux from starch toward lipid biosynthesis has been considered an effective strategy to improve lipid yield, and manipulating upstream regulators may allow broader control over metabolic networks. DYRKP1, a plant-specific dual-specificity tyrosine-phosphorylation-regulated kinase conserved in photosynthetic eukaryotes, has been implicated in regulating intracellular carbon partitioning. In this study, we investigated the physiological and metabolic effects of DYRKP1 deficiency in a cell-wall-less strain of Chlamydomonas reinhardtii. To further enhance lipid accumulation, we additionally knocked out ADP-glucose pyrophosphorylase (AGP), a key enzyme involved in starch biosynthesis. The total fatty acid content of DYRKP1-AGP double knockout (dKO) mutants was higher than that of their parental strain (CC4349) under both nitrogen-replete and deplete conditions, and was even 1.2-fold higher than that of the AGP single knockout (agp) mutant under nitrogen-deplete conditions. The DYRKP1 single knockout mutants exhibited fatty acid composition similar to the parental strain, regardless of nitrogen depletion. The fatty acid composition of the dKO mutants resembled that of the agp mutant under nitrogen-replete conditions, but diverged upon nitrogen starvation, suggesting a conditional interaction between upstream regulation and metabolic flux. This finding implies that disrupting upstream regulators like DYRKP1 may offer limited additional benefit when key downstream bottlenecks, such as starch biosynthesis, are already removed. Overall, our study underscores the layered complexity of carbon partitioning in C. reinhardtii and the importance of context-dependent metabolic regulation in optimizing lipid production. © 2025 Elsevier B.V., All rights reserved.
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