Olfr652, a member of the olfactory receptor gene family, plays a pivotal role in our sense of smell. Situated within the olfactory epithelium, Olfr652 functions as a sensory receptor responsible for detecting and distinguishing specific odorant molecules in our environment. Its activation is a highly specialized process that is fundamental to our ability to perceive and differentiate a wide array of scents. The activation of Olfr652 is initiated when odorant molecules, represented by the chemicals listed in the table, directly interact with the receptor. These interactions trigger conformational changes within the protein, setting off a cascade of downstream signaling pathways. Each chemical activator binds to the Olfr652 receptor, inducing these conformational changes and initiating intracellular events. Collectively, these events result in the functional activation of Olfr652, converting the presence of odorants into neural signals that are transmitted to the brain for further processing and odor recognition.
In conclusion, Olfr652 plays a vital role in our olfactory system, enabling us to experience and distinguish a wide range of scents. Its activation mechanism, involving direct interaction with odorant chemicals and subsequent intracellular signaling, ensures our ability to interpret the diverse world of odors with precision and accuracy, contributing to our sensory perception of the surrounding environment.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Allyl ethyl sulfide | 5296-62-8 | sc-278682 | 1 g | $58.00 | ||
Allyl Ethyl Sulfide serves as a direct activator of Olfr652 by binding to its receptor, initiating conformational changes that lead to downstream signaling events. This activation results in the functional activation of the protein, essential for odor perception. | ||||||
3-Methyl-1-butanethiol | 541-31-1 | sc-231817 | 5 g | $65.00 | ||
3-Methyl-1-butanethiol specifically activates Olfr652 by binding to the receptor and initiating conformational changes that lead to downstream signaling events, resulting in the functional activation of the protein and the perception of specific odors. | ||||||
Allyl isothiocyanate | 57-06-7 | sc-252361 sc-252361A sc-252361B | 5 g 100 g 500 g | $43.00 $66.00 $117.00 | 3 | |
Allyl Isothiocyanate directly activates Olfr652 by binding to the receptor, inducing conformational changes and downstream signaling pathways. This activation leads to the functional activation of Olfr652, enabling odor detection and discrimination. | ||||||
Benzyl thiocyanate | 3012-37-1 | sc-204643 sc-204643A | 50 g 100 g | $30.00 $48.00 | ||
Benzyl Thiocyanate directly activates Olfr652 by binding to the receptor, initiating conformational changes and subsequent downstream signaling events. This activation results in the functional activation of the protein, enabling the perception of specific odors. | ||||||
Ethyl Methanethiosulfonate | 2043-76-7 | sc-211475 | 100 mg | $300.00 | ||
Ethyl Methanethiosulfonate serves as a direct activator of Olfr652 by binding to its receptor, inducing conformational changes that initiate downstream signaling, ultimately resulting in the functional activation of the protein, crucial for odor perception. | ||||||
Benzyl isothiocyanate | 622-78-6 | sc-204641 sc-204641A | 5 g 25 g | $46.00 $153.00 | 1 | |
Benzyl Isothiocyanate specifically activates Olfr652 by binding to the receptor and initiating conformational changes that lead to downstream signaling events, resulting in the functional activation of the protein and the perception of specific odors. | ||||||
Allyl disulfide | 2179-57-9 | sc-252359 | 25 g | $78.00 | ||
Allyl disulfide serves as a direct activator of Olfr652 by binding to its receptor, initiating conformational changes that initiate downstream signaling, ultimately resulting in the functional activation of the protein, crucial for odor perception. | ||||||