The recently discovered dular ucosides (MOGLs) form a large metabolite library derived from combinatorial assembly of moieties from amino acid, neurotransmitter, and lipid metabolism in the model organism . Combining CRISPR-Cas9 genome editing, comparative metabolomics, and synthesis, we show that the carboxylesterase homologue Cel-CEST-1.2 is responsible for specific 2--acylation of diverse glucose scaffolds with a wide variety of building blocks, resulting in more than 150 different MOGLs. We further show that this biosynthetic role is conserved for the closest homologue of Cel-CEST-1.2 in the related nematode species , Cbr-CEST-2. Expression of and MOGL biosynthesis are strongly induced by starvation conditions in , one of the premier model systems for mechanisms connecting nutrition and physiology. -deletion results in early death of adult animals under starvation conditions, providing first insights into the biological functions of MOGLs.
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| http://dx.doi.org/10.1021/jacs.1c05908 | DOI Listing |
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