Researchers?from the Institute of Modern Physics?(IMP) �,?Chinese Academy of Sciences?(CAS) �����,along with their collaborators from?Lanzhou University of Technology?(LUT) ����,have?presented a new approach to enhance?yeast‘s ability to?produce high-value lipid compounds. This novel method combines heavy ion radiation with gene editing. The findings were published in?Communications Biology �,a?Nature Portfolio journal.
Yeast ,?an important microorganism ��,possesses?a?valuable capability?to synthesize?lipids. Lipids extracted from yeast?are high-value compounds with broad applications �,such as biofuels ,nutritional supplements �����,and cosmetics.
Acetyl-CoA?plays a vital?role?in yeast lipid synthesis �����,serving?as the essential“building block“for lipid production. The efficiency and quality of lipid production heavily?rely on the availability of acetyl-CoA. However ���,traditional lipid synthesis pathways have limitations in maintaining a stable supply of acetyl-CoA ��,thereby restricting the overall yield.
To enhance the supply of acetyl-CoA ��,the researchers exposed yeast to heavy ion radiation and conducted a multi-omics analysis ��,using the Heavy Ion Research Facility in Lanzhou (HIRFL).
“Compared to traditional techniques ����,heavy-ion radiation?offers many advantages ,including a higher mutation rate ���,a broader mutation spectrum �����,and the ability to produce stable mutants more easily �,“?said Dr.?LU Dong ���,one of the?corresponding authors?of this study and a researcher from IMP.
The researchers identified?and validated?a key gene �,ALD4 �����,which is involved in lipid metabolism. The ALD4?gene plays a crucial role in producing acetate ���,a precursor that converts into acetyl-CoA.
By regulating ALD4 expression through gene editing �����,researchers?precisely optimized yeast metabolic pathways �,leading to a 17.1% increase in acetyl-CoA production?and notable improvements in the yeast‘s ability to?produce high-value lipid compounds.
“This innovative strategy could be applied to improve yeast fermentation performance in complex industrial scenarios ��,providing new technical insights for applications in the biomanufacturing?field ����,“?said Dr. GUO Xiaopeng ,another corresponding author of this study and a researcher from?LUT.
This work was supported by the National Natural Science Foundation of China ����,the“Western Young Scholar“key project of CAS?2023 and the Gansu Youth Science and Technology Fund Project.
Figure.?Combination of heavy ion radiation and genetic manipulation to create microbial mutants. (Image by IMP)
