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Identification of two critical amino acid residues in short-chain aldehyde-responsive odorant receptors.

Reina KanemakiToshiya HayakawaHaruto KudoMasafumi YohdaYosuke Fukutani
Published in: Journal of biochemistry (2024)
Mammalian odorant receptors (ORs) are crucial for detecting a broad spectrum of odorants, yet their functional expression poses a significant challenge, often requiring Receptor-transporting proteins (RTPs). This study examines mouse Olfr733 and Olfr732, which, despite high homology, show different functional expression profiles in heterologous cell systems. Our research aimed to identify key amino acids impacting Olfr733's functional expression. We discovered that G112FBW3.40 and L148PBW4.49 (Ballesteros-Weinstein numbering in superscript) substitutions in Olfr732 markedly enhance its RTP-independent expression and ligand responsiveness, mirroring Olfr733. These substitutions, particularly Phe112 and Leu148, are crucial for aldehyde recognition and membrane localization in Olfr733, respectively. While Olfr732-type ORs are conserved across species, Olfr733-types, unique to specific rodents, appear to have evolved from Olfr732, with Pro148 enhancing membrane expression and aldehyde sensitivity. Mouse ORs with ProBW4.49 tend to exhibit improved membrane expression compared to their paralogs, especially when co-expressed with RTP1S. This study concludes that the Pro residue in the fourth transmembrane domain significantly contributes to the structural stability of certain olfactory receptors, highlighting the intricate molecular mechanisms underlying OR functionality and evolution.
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