Date published: 2025-10-24

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ZNF31 Activators

The chemical class termed ZNF31 Activators refers to a range of compounds that potentially influence the function of the zinc finger protein ZNF31. This influence is primarily exerted through indirect pathways rather than direct interaction with the protein itself. ZNF31, like other zinc finger proteins, plays a role in transcriptional regulation, suggesting that its activity could be modulated by factors that impact gene expression and cellular signaling pathways. The activators in this class encompass a variety of compounds, each with unique properties and mechanisms of action that can intersect with the regulatory networks of ZNF31.

For example, polyphenols like Resveratrol and Curcumin are known for their ability to modulate gene expression and signaling pathways. In the context of ZNF31, these compounds might influence the protein's activity by altering the transcriptional landscape in which ZNF31 operates. Similarly, compounds such as Sulforaphane and Genistein, found in natural sources, are recognized for their roles in affecting transcription factors and gene expression. These compounds could impact ZNF31's function by modulating the cellular environment, thereby influencing the regulatory roles of ZNF31. Additionally, molecules like Retinoic Acid and Vitamin D3, which are directly involved in gene regulation processes, may have an indirect effect on ZNF31's activity through their roles in developmental processes and cellular differentiation. Moreover, this class includes compounds like Zinc Pyrithione, which, by altering zinc homeostasis, could potentially affect the functionality of zinc finger proteins like ZNF31. Lithium Chloride and PD98059 represent another facet of this class, targeting signaling pathways such as GSK-3β/Wnt and MAPK/ERK, respectively. These pathways are crucial in cellular processes and could intersect with the regulatory mechanisms of ZNF31. Collectively, ZNF31 Activators encompass a range of compounds that, through diverse mechanisms, have the potential to influence the complex regulatory network associated with ZNF31, thereby modulating its activity in an indirect manner. This chemical class underscores the intricate interplay between small molecule compounds and transcriptional regulation, highlighting the complexities of targeting specific proteins like ZNF31 in cellular signaling networks.

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Items 1 to 10 of 11 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

Curcumin

458-37-7sc-200509
sc-200509A
sc-200509B
sc-200509C
sc-200509D
sc-200509F
sc-200509E
1 g
5 g
25 g
100 g
250 g
1 kg
2.5 kg
$36.00
$68.00
$107.00
$214.00
$234.00
$862.00
$1968.00
47
(1)

Curcumin can modulate transcription factors and inflammatory pathways, possibly impacting ZNF31's regulatory roles.

Resveratrol

501-36-0sc-200808
sc-200808A
sc-200808B
100 mg
500 mg
5 g
$60.00
$185.00
$365.00
64
(2)

As a polyphenol, Resveratrol influences gene expression and might affect pathways involving ZNF3

D,L-Sulforaphane

4478-93-7sc-207495A
sc-207495B
sc-207495C
sc-207495
sc-207495E
sc-207495D
5 mg
10 mg
25 mg
1 g
10 g
250 mg
$150.00
$286.00
$479.00
$1299.00
$8299.00
$915.00
22
(1)

By affecting transcription factor activity, Sulforaphane might indirectly modulate ZNF31's function.

Genistein

446-72-0sc-3515
sc-3515A
sc-3515B
sc-3515C
sc-3515D
sc-3515E
sc-3515F
100 mg
500 mg
1 g
5 g
10 g
25 g
100 g
$26.00
$92.00
$120.00
$310.00
$500.00
$908.00
$1821.00
46
(1)

Genistein, a soy isoflavone, influences gene expression and cellular signaling, possibly intersecting with ZNF31's role.

Quercetin

117-39-5sc-206089
sc-206089A
sc-206089E
sc-206089C
sc-206089D
sc-206089B
100 mg
500 mg
100 g
250 g
1 kg
25 g
$11.00
$17.00
$108.00
$245.00
$918.00
$49.00
33
(2)

Quercetin, a flavonoid, can modulate various signaling pathways, potentially impacting ZNF31 activity.

(−)-Epigallocatechin Gallate

989-51-5sc-200802
sc-200802A
sc-200802B
sc-200802C
sc-200802D
sc-200802E
10 mg
50 mg
100 mg
500 mg
1 g
10 g
$42.00
$72.00
$124.00
$238.00
$520.00
$1234.00
11
(1)

EGCG can influence gene expression and signaling pathways, potentially intersecting with ZNF31's function.

Indole-3-carbinol

700-06-1sc-202662
sc-202662A
sc-202662B
sc-202662C
sc-202662D
1 g
5 g
100 g
250 g
1 kg
$38.00
$60.00
$143.00
$306.00
$1012.00
5
(1)

This compound, found in cruciferous vegetables, modulates gene expression and may impact ZNF3

Retinoic Acid, all trans

302-79-4sc-200898
sc-200898A
sc-200898B
sc-200898C
500 mg
5 g
10 g
100 g
$65.00
$319.00
$575.00
$998.00
28
(1)

Retinoic Acid, involved in gene regulation, might influence ZNF31's activity in development.

Cholecalciferol

67-97-0sc-205630
sc-205630A
sc-205630B
1 g
5 g
10 g
$70.00
$160.00
$290.00
2
(1)

Vitamin D3, through its receptor, can influence gene expression, potentially affecting ZNF31's roles.

Zinc

7440-66-6sc-213177
100 g
$47.00
(0)

While used for its antimicrobial properties, Zinc Pyrithione can affect zinc homeostasis, potentially impacting ZNF3