Abstract background of various biochemical concepts

Unlocking Nature’s Biochemical Recycling Secrets

Researchers find that carboxylesterases contribute to the formation of esters and amide bonds

Written byBoyce Thompson Institute
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A new perspective published in the journal Nature Chemical Biology uncovers a previously unknown biochemical recycling process in animals. The authors review a flurry of recent papers demonstrating that animals extensively recycle biochemical waste to produce novel chemicals that play key roles in biology, from regulating behavior to development and aging.

These studies show that the genes previously thought to code for carboxylesterases, enzymes that hydrolyze esters, actually play a pivotal role in assembling a wide range of new metabolites from building blocks generally considered “cellular waste.” Surprisingly, the so-called carboxylesterases were found to contribute to the formation of esters and amide bonds, a function opposite to that predicted by computational algorithms.

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“This discovery reveals that our understanding of biochemistry remains largely incomplete,” says the perspective’s lead author, Frank Schroeder, a professor at Boyce Thompson Institute (BTI). “This research has the potential to revolutionize our understanding of how animals, including humans, function.”

Recent investigations indicate that animals and humans may produce over 100,000 distinct chemicals, most of which have not been investigated. This unknown structure space is a treasure trove of chemicals, which may hold the key to understanding many biological processes. One major challenge to understanding how these metabolites contribute to survival is that the enzymes that produce them are also unknown.

“The discovery of this biochemical recycling mechanism opens up exciting new avenues for future research, with the potential to dramatically accelerate the structural and functional annotation of unknown metabolites,” says Chester Wrobel, a graduate student in the Schroeder lab and co-author of the perspective.

- This press release was originally published on the Boyce Thompson Institute website

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