Olfr54 Activators
The selected chemical activators of Olfr54, such as Benzaldehyde and Ethyl Vanillin, activate the protein by directly interacting with specific binding sites, inducing conformational changes crucial for Olfr54 activation. Compounds like Isoamyl Acetate and Methyl Anthranilate further demonstrate the diversity of molecular interactions, where they bind to distinct regions on Olfr54, facilitating the necessary structural alterations for activation. Linalool and Ethyl Butyrate exemplify the activation mechanism through their interaction with specific olfactory receptor domains of Olfr54, triggering conformational shifts essential for its activation. Similarly, Heptanal and Citronellal activate Olfr54 by engaging with unique binding sites, leading to the necessary changes for the protein's functional activity.
The activation process of Olfr54 is further elucidated by Alpha-Terpineol, Hexanol, Benzyl Acetate, and Geranyl Acetate. These chemicals bind to specific receptor sites on Olfr54, inducing structural rearrangements that trigger the protein's activation. This detailed understanding of how each chemical potentially activates Olfr54 provides a comprehensive insight into the molecular dynamics governing the activation mechanisms of this olfactory receptor protein. Through this analytical approach, a thorough understanding of the molecular interactions and conformational changes essential for the activation of Olfr54 is achieved. This information is crucial for advancing our comprehension of the functional roles of Olfr54 and may guide future research into its physiological and biochemical significance in olfactory processes.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
3-Ethoxy-4-hydroxybenzaldehyde | 121-32-4 | sc-238538 | 100 g | $31.00 | ||
3-Ethoxy-4-hydroxybenzaldehyde could activate Olfr54 through its interaction with the aromatic binding domains, facilitating a conformational shift essential for activation. | ||||||
Isopentyl acetate | 123-92-2 | sc-250190 sc-250190A | 100 ml 500 ml | $107.00 $225.00 | ||
Isopentyl acetate may bind to Olfr54's ester-specific site, causing conformational changes that lead to protein activation. | ||||||
Linalool | 78-70-6 | sc-250250 sc-250250A sc-250250B | 5 g 100 g 500 g | $47.00 $72.00 $110.00 | ||
Linalool has the potential to activate Olfr54 through interaction with its alcohol-specific binding domains, triggering activation. | ||||||
Ethyl butyrate | 105-54-4 | sc-214986 sc-214986A | 1 kg 4 kg | $100.00 $210.00 | ||
Ethyl Butyrate may activate Olfr54 by binding to a specific ester recognition site, leading to conformational changes and activation. | ||||||
Heptaldehyde | 111-71-7 | sc-250089 sc-250089A | 2 ml 100 ml | $30.00 $59.00 | ||
Heptaldehyde could activate Olfr54 by interacting with its aldehyde-specific binding region, inducing necessary structural shifts for activation. | ||||||
(±)-Citronellal | 106-23-0 | sc-234400 | 100 ml | $51.00 | ||
Citronellal can activate Olfr54 by engaging with specific binding sites, leading to conformational rearrangements and activation. | ||||||
Benzyl acetate | 140-11-4 | sc-252427 | 100 g | $30.00 | 1 | |
Benzyl Acetate may activate Olfr54 by interacting with its acetate-specific binding domain, leading to protein activation. | ||||||
Geranyl acetate | 105-87-3 | sc-235243 | 25 g | $41.00 | ||
Geranyl Acetate can activate Olfr54 by binding to specific sites, inducing structural changes necessary for activation. | ||||||