Molecular cloning and characterization of a lipase from the honeybee Apis mellifera

[Display omitted] •Am-Lipase protein preferentially degrades triglycerides with long-chain fatty acids.•Am-Lipase is highly expressed in the fat body of foragers in comparison with the nurses.•Am-Lipase plays a role in the fat body for lipid metabolism. Lipids perform essential and important functio...

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Bibliographic Details
Published in:Journal of Asia-Pacific entomology 2022, 25(2), , pp.1-6
Main Authors: Yeon Ryu, So, Hui Kim, Yun, Myung Kim, Jin, Yeon Kim, Bo, Sik Lee, Kwang, Rae Jin, Byung
Format: Article
Language:English
Subjects:
Apis mellifera
Fat body
Honeybee
Lipase
Lipid metabolism
농학
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Summary:[Display omitted] •Am-Lipase protein preferentially degrades triglycerides with long-chain fatty acids.•Am-Lipase is highly expressed in the fat body of foragers in comparison with the nurses.•Am-Lipase plays a role in the fat body for lipid metabolism. Lipids perform essential and important functions, such as serving as an energy source for growth, development, reproduction, flight, starvation, and diapause in insects. Lipases are key enzymes involving in lipid metabolism and have been reported in several insect species. However, the molecular characterization of the pancreatic triacylglycerol lipase-like genes in honeybees has not been elucidated. Here, we describe the cDNA cloning and characterization of lipase from the honeybee Apis mellifera (Am-Lipase). Am-Lipase consists of 321 amino acids, including a Ser-Glu-His catalytic triad and a consensus active site motif GXSXG. Recombinant Am-Lipase protein degrades triglycerides, preferentially catalyzing the hydrolysis of long-chain fatty acids. Furthermore, the expression pattern of Am-Lipase seems to be a fat body-specific lipase, shows higher expression in forager bees, and is decreased under starvation conditions. Thus, our results suggest that Am-Lipase plays a role in the utilization of lipids stored in the fat body for lipid metabolism.
ISSN:1226-8615
1876-7990
DOI:10.1016/j.aspen.2022.101921