Olfr1055 Activators
Olfr1055 activators encompass a diverse range of chemical compounds, each uniquely contributing to the functional enhancement of this olfactory receptor. Icilin, as a TRPM8 receptor super-agonist, initiates a cascade of calcium influx, indirectly promoting Olfr1055's activity by amplifying intracellular calcium signaling, a critical secondary messenger in olfactory transduction. Similarly, Forskolin, by increasing intracellular cAMP through adenylyl cyclase activation, enhances Olfr1055's function via cAMP-dependent phosphorylation pathways, integral to olfactory signaling. Capsaicin and Menthol, through their selective activation of TRPV1 and TRPM8 respectively, introduce cross-talk in sensory pathways, potentially augmenting Olfr1055's activity. Cinnamaldehyde, by activating TRPA1, triggers calcium ion influx, indirectly facilitating Olfr1055's role in olfactory signal transduction. A23187 and Thapsigargin, by manipulating intracellular calcium levels, and IBMX, through its inhibition of phosphodiesterases, further reinforce Olfr1055's activity via modulation of calcium and cAMP signaling pathways, respectively.
In the same vein, BAPTA-AM, by modulating intracellular calcium, and PMA, through PKC activation, play pivotal roles in enhancing Olfr1055's signaling efficiency. These compounds fine-tune the calcium-dependent pathways and activate protein kinase C, respectively, both of which are crucial in olfactory neuron signaling. Zinc sulfate, providing essential zinc ions, and Eugenol, known for its broad-spectrum modulation of ion channels and receptors, contribute to the enhancement of Olfr1055 activity. Zinc ions may interact directly with Olfr1055 or its associated pathways, while Eugenol's influence on various receptors and channels facilitates an indirect enhancement of Olfr1055's functional capacity. Collectively, these activators work through distinct yet interconnected pathways, orchestrating a symphony of biochemical events that culminate in the enhanced functional activity of Olfr1055, showcasing the intricacies and interdependencies within olfactory receptor signaling networks.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Icilin | 36945-98-9 | sc-201557 sc-201557A | 10 mg 50 mg | $91.00 $257.00 | 9 | |
Icilin acts as a synthetic super-agonist of the TRPM8 receptor, which is involved in thermosensation. The activation of TRPM8 by Icilin leads to calcium influx and subsequent activation of downstream signaling pathways, potentially enhancing the activity of Olfr1055 by increasing intracellular calcium, which is a common secondary messenger in olfactory signaling. | ||||||
Capsaicin | 404-86-4 | sc-3577 sc-3577C sc-3577D sc-3577A | 50 mg 250 mg 500 mg 1 g | $96.00 $160.00 $240.00 $405.00 | 26 | |
Capsaicin selectively activates TRPV1, a receptor involved in pain and heat sensation. This activation can influence adjacent signaling pathways including those related to olfactory receptors like Olfr1055, potentially enhancing its activity through cross-talk mechanisms. | ||||||
(±)-Menthol | 89-78-1 | sc-250299 sc-250299A | 100 g 250 g | $39.00 $68.00 | ||
Menthol activates TRPM8 and kappa opioid receptors, leading to an altered sensory perception. This activation can indirectly influence the signaling pathways of olfactory receptors like Olfr1055, potentially enhancing its activity through modulation of neuronal signaling. | ||||||
Cinnamic Aldehyde | 104-55-2 | sc-294033 sc-294033A | 100 g 500 g | $104.00 $228.00 | ||
Cinnamaldehyde activates TRPA1, a receptor involved in irritation sensation. Activation of TRPA1 can lead to an influx of calcium ions, which may indirectly enhance the activity of Olfr1055 by modulating olfactory signal transduction. | ||||||
A23187 | 52665-69-7 | sc-3591 sc-3591B sc-3591A sc-3591C | 1 mg 5 mg 10 mg 25 mg | $55.00 $131.00 $203.00 $317.00 | 23 | |
A23187 is a calcium ionophore that increases intracellular calcium levels. Elevated calcium can enhance the activity of Olfr1055 by activating calcium-dependent signaling pathways crucial in olfactory transduction. | ||||||
IBMX | 28822-58-4 | sc-201188 sc-201188B sc-201188A | 200 mg 500 mg 1 g | $260.00 $350.00 $500.00 | 34 | |
IBMX inhibits phosphodiesterases, leading to an increase in cAMP levels. Higher cAMP can enhance Olfr1055 activity by modulating the olfactory G-protein-coupled receptor signaling pathway. | ||||||
Thapsigargin | 67526-95-8 | sc-24017 sc-24017A | 1 mg 5 mg | $136.00 $446.00 | 114 | |
Thapsigargin disrupts calcium storage in the endoplasmic reticulum, increasing cytosolic calcium concentration. This increase can potentially enhance the activity of Olfr1055 by influencing calcium-dependent signaling mechanisms in olfactory neurons. | ||||||
BAPTA/AM | 126150-97-8 | sc-202488 sc-202488A | 25 mg 100 mg | $138.00 $458.00 | 61 | |
BAPTA-AM is a calcium chelator that modulates intracellular calcium levels. By fine-tuning the calcium concentration, it can indirectly enhance the activity of Olfr1055 through the modulation of calcium-dependent signaling pathways. | ||||||
PMA | 16561-29-8 | sc-3576 sc-3576A sc-3576B sc-3576C sc-3576D | 1 mg 5 mg 10 mg 25 mg 100 mg | $41.00 $132.00 $214.00 $500.00 $948.00 | 119 | |
PMA activates protein kinase C (PKC), which is involved in various signaling pathways. PKC activation can enhance Olfr1055 activity by influencing downstream signaling mechanisms in olfactory neurons. | ||||||
Zinc | 7440-66-6 | sc-213177 | 100 g | $48.00 | ||
ZnSO4 provides zinc ions, which are known to modulate olfactory receptor function. Zinc may enhance Olfr1055 activity by directly interacting with the receptor or its associated signaling pathways. | ||||||