Pyhin1 Attivatori
Chemical activators of PTPy engage with the protein in various ways to enhance its phosphatase activity, each employing a distinct mechanism of action that results in the functional activation of PTPy. Zinc Pyrithione, for example, can bind directly to PTPy, leading to an alteration in the oxidation state of the protein, which in turn activates its phosphatase function. Similarly, Sodium Orthovanadate, although commonly known to inhibit phosphatases, can paradoxically lead to the activation of PTPy. This occurs through a mechanism where the inhibitor prevents dephosphorylation, thereby leading to an active state of PTPy. Hydrogen Peroxide is another activator that oxidizes cysteine residues on PTPy, inducing a conformational change and subsequent activation of the protein's phosphatase activity.
Moreover, compounds like Peroxovanadium mimic the transition state of phosphate esters, which stabilizes the active form of PTPy, leading to its activation. Dithiothreitol reduces disulfide bonds within PTPy, which exposes the active site and activates the enzyme's function. Phenylarsine Oxide promotes the activation of PTPy by binding to vicinal thiols, inducing dimerization or conformational changes that result in the activation of its enzymatic activity. Other chemicals such as Lead (II) Acetate, p-Hydroxymercuribenzoate, Tellurite, and Thimerosal can bind to PTPy and induce conformational changes that activate the enzyme. Specifically, Tellurite and Thimerosal interact with the thiol groups of PTPy, leading to structural modifications that enable phosphatase activity. Nonivamide, through its activation of transient receptor potential cation channels, initiates cellular responses that can activate PTPy. Lastly, Cantharidin, by inhibiting serine/threonine phosphatases, can lead to a compensatory activation of PTPy, ensuring that the balance of phosphatase activity within the cell is maintained. Each of these chemicals activates PTPy through direct binding or the initiation of cellular processes that result in the functional activation of the protein's phosphatase activity.
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| Nome del prodotto | CAS # | Codice del prodotto | Quantità | Prezzo | CITAZIONI | Valutazione |
|---|---|---|---|---|---|---|
Zinc | 7440-66-6 | sc-213177 | 100 g | $47.00 | ||
Lo zinco piritione lega PTPy, determinando un'alterazione del suo stato di ossidazione, con conseguente attivazione della sua attività fosfatasica. | ||||||
Sodium Orthovanadate | 13721-39-6 | sc-3540 sc-3540B sc-3540A | 5 g 10 g 50 g | $45.00 $56.00 $183.00 | 142 | |
L'ortovanadato di sodio agisce come un inibitore della fosfatasi che può paradossalmente portare all'attivazione della PTPy impedendone la de-fosforilazione. | ||||||
Hydrogen Peroxide | 7722-84-1 | sc-203336 sc-203336A sc-203336B | 100 ml 500 ml 3.8 L | $30.00 $60.00 $93.00 | 27 | |
Il perossido di idrogeno ossida i residui di cisteina in PTPy, causando un cambiamento conformazionale che attiva la sua attività di fosfatasi. | ||||||
Phenylarsine oxide | 637-03-6 | sc-3521 | 250 mg | $40.00 | 4 | |
L'ossido di fenilarsina si lega ai tioli vicinali della PTPy, promuovendo la dimerizzazione o i cambiamenti conformazionali che portano all'attivazione della sua attività enzimatica. | ||||||
Lead(II) Acetate | 301-04-2 | sc-507473 | 5 g | $83.00 | ||
L'acetato di piombo (II) può legarsi a PTPy, inducendo un cambiamento conformazionale che ne potenzia l'attività di fosfatasi. | ||||||
Cantharidin | 56-25-7 | sc-201321 sc-201321A | 25 mg 100 mg | $81.00 $260.00 | 6 | |
La cantaridina inibisce le fosfatasi serina/treonina, il che può portare all'attivazione compensatoria di PTPy per mantenere l'equilibrio dell'attività delle fosfatasi. | ||||||