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Nat Chem Biol ; 16(3): 250-256, 2020 03.
Artigo em Inglês | MEDLINE | ID: mdl-31932723

RESUMO

In plants, lineage-specific metabolites can be created by activities derived from the catalytic promiscuity of ancestral proteins, although examples of recruiting detoxification systems to biosynthetic pathways are scarce. The ubiquitous glyoxalase (GLX) system scavenges the cytotoxic methylglyoxal, in which GLXI isomerizes the α-hydroxy carbonyl in the methylglyoxal-glutathione adduct for subsequent hydrolysis. We show that GLXIs across kingdoms are more promiscuous than recognized previously and can act as aromatases without cofactors. In cotton, a specialized GLXI variant, SPG, has lost its GSH-binding sites and organelle-targeting signal, and evolved to aromatize cyclic sesquiterpenes bearing α-hydroxyketones to synthesize defense compounds in the cytosol. Notably, SPG is able to transform acetylated deoxynivalenol, the prevalent mycotoxin contaminating cereals and foods. We propose that detoxification enzymes are a valuable source of new catalytic functions and SPG, a standalone enzyme catalyzing complex reactions, has potential for toxin degradation, crop engineering and design of novel aromatics.


Assuntos
Aromatase/metabolismo , Lactoilglutationa Liase/química , Lactoilglutationa Liase/metabolismo , Aromatase/química , Produtos Biológicos , Catálise , Citosol/metabolismo , Glutationa/metabolismo , Gossypium/metabolismo , Complexos Multienzimáticos , Aldeído Pirúvico/química , Aldeído Pirúvico/metabolismo
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