The multi-faceted food odorant 4-methylphenol selectively activates evolutionary conserved receptor OR9Q2

•Impurities can confound studies on the functional genomics of odorant receptors.•Human odorant receptor OR9Q2 is tuned to 4-methylphenol.•The 4-methylphenol function of OR9Q2 is evolutionary conserved.•OR9Q2 complements a detection gap of broadest tuned odorant receptor OR2W1. 4-Methylphenol is a f...

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Veröffentlicht in:	Food chemistry 2023-11, Vol.426, p.136492-136492, Article 136492
Hauptverfasser:	Haag, Franziska, Frey, Tim, Hoffmann, Sandra, Kreissl, Johanna, Stein, Jörg, Kobal, Gerd, Hauner, Hans, Krautwurst, Dietmar
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Sprache:	eng
Schlagworte:	G-protein coupled receptor High throughput screening High-impact aroma compound Malodor Narrowly tuned P-cresol
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creator	Haag, Franziska Frey, Tim Hoffmann, Sandra Kreissl, Johanna Stein, Jörg Kobal, Gerd Hauner, Hans Krautwurst, Dietmar
description	•Impurities can confound studies on the functional genomics of odorant receptors.•Human odorant receptor OR9Q2 is tuned to 4-methylphenol.•The 4-methylphenol function of OR9Q2 is evolutionary conserved.•OR9Q2 complements a detection gap of broadest tuned odorant receptor OR2W1. 4-Methylphenol is a food-related odor-active volatile with a high recognition factor, due to its horse stable-like, fecal odor quality. Its ambivalent hedonic impact as key aroma compound, malodor, and semiochemical has spurred the search for its cognate, chemosensory odorant receptors across species. A human odorant receptor for the highly characteristic 4-methylphenol has been elusive. Here, we identified and characterized human receptor OR9Q2 to be tuned to purified 4-methylphenol, but not to its contaminant isomer 3-methylphenol. This highly selective function of OR9Q2 complements an exclusive phenol detection gap in the ancient, most broadly tuned human odorant receptor OR2W1. Moreover, a 4-methylphenol function is evolutionary conserved in phylogenetically related OR9Q2 orthologs from chimpanzee, mouse, and cow. Notably, the cow receptor outperformed human OR9Q2 10-fold in signal strength, consonant with previous reports of 4-methylphenol as a bovine pheromone. Our results suggest OR9Q2 as best sensor for the key food odorant, malodor, and semiochemical 4-methylphenol.
doi_str_mv	10.1016/j.foodchem.2023.136492
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Its ambivalent hedonic impact as key aroma compound, malodor, and semiochemical has spurred the search for its cognate, chemosensory odorant receptors across species. A human odorant receptor for the highly characteristic 4-methylphenol has been elusive. Here, we identified and characterized human receptor OR9Q2 to be tuned to purified 4-methylphenol, but not to its contaminant isomer 3-methylphenol. This highly selective function of OR9Q2 complements an exclusive phenol detection gap in the ancient, most broadly tuned human odorant receptor OR2W1. Moreover, a 4-methylphenol function is evolutionary conserved in phylogenetically related OR9Q2 orthologs from chimpanzee, mouse, and cow. Notably, the cow receptor outperformed human OR9Q2 10-fold in signal strength, consonant with previous reports of 4-methylphenol as a bovine pheromone. 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Its ambivalent hedonic impact as key aroma compound, malodor, and semiochemical has spurred the search for its cognate, chemosensory odorant receptors across species. A human odorant receptor for the highly characteristic 4-methylphenol has been elusive. Here, we identified and characterized human receptor OR9Q2 to be tuned to purified 4-methylphenol, but not to its contaminant isomer 3-methylphenol. This highly selective function of OR9Q2 complements an exclusive phenol detection gap in the ancient, most broadly tuned human odorant receptor OR2W1. Moreover, a 4-methylphenol function is evolutionary conserved in phylogenetically related OR9Q2 orthologs from chimpanzee, mouse, and cow. Notably, the cow receptor outperformed human OR9Q2 10-fold in signal strength, consonant with previous reports of 4-methylphenol as a bovine pheromone. 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title	The multi-faceted food odorant 4-methylphenol selectively activates evolutionary conserved receptor OR9Q2
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