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- Title
Evolution of enzyme functionality in the flavin-containing monooxygenases.
- Authors
Bailleul, Gautier; Yang, Guang; Nicoll, Callum R.; Mattevi, Andrea; Fraaije, Marco W.; Mascotti, Maria Laura
- Abstract
Among the molecular mechanisms of adaptation in biology, enzyme functional diversification is indispensable. By allowing organisms to expand their catalytic repertoires and adopt fundamentally different chemistries, animals can harness or eliminate new-found substances and xenobiotics that they are exposed to in new environments. Here, we explore the flavin-containing monooxygenases (FMOs) that are essential for xenobiotic detoxification. Employing a paleobiochemistry approach in combination with enzymology techniques we disclose the set of historical substitutions responsible for the family's functional diversification in tetrapods. Remarkably, a few amino acid replacements differentiate an ancestral multi-tasking FMO into a more specialized monooxygenase by modulating the oxygenating flavin intermediate. Our findings substantiate an ongoing premise that enzymatic function hinges on a subset of residues that is not limited to the active site core. Detoxification enzymes are crucial for the survival of animals in new environments. Here, the authors study the molecular mechanism behind the catalytic diversification of a major family of tetrapod detoxification enzymes—the FMOs—during evolution.
- Subjects
MONOOXYGENASES; ENZYMES; XENOBIOTICS; AMINO acids; TETRAPODS
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-36756-x