Date published: 2025-11-1

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ZNF232 Inhibitors

ZNF232 inhibitors belong to a class of chemical compounds designed to modulate the activity of the zinc finger protein 232 (ZNF232). ZNF232 is a member of the large family of zinc finger proteins, which are characterized by the presence of zinc finger motifs-structural domains stabilized by zinc ions that bind to DNA, RNA, or proteins. These proteins are often involved in transcriptional regulation and various biological processes such as cell differentiation, growth, and apoptosis. ZNF232, like other zinc finger proteins, likely plays a role in gene expression regulation through binding specific DNA sequences and influencing transcription factors or chromatin structure. Compounds classified as ZNF232 inhibitors are synthesized to selectively disrupt or modulate the activity of this protein, which can alter the gene expression pathways that ZNF232 controls. This form of inhibition can be of particular interest in studies of gene regulation and cellular processes at the molecular level.

Structurally, ZNF232 inhibitors are designed to interact specifically with the zinc finger motifs or other regulatory regions of the ZNF232 protein, impeding its ability to bind to DNA or other molecular targets. The inhibition mechanism may involve direct competition for binding sites or altering the protein's conformation, thus preventing proper interaction with its natural substrates. These inhibitors are often developed with high specificity to target the unique structural features of ZNF232 without affecting the function of other zinc finger proteins. Researchers study these compounds to understand their precise binding interactions, structural dynamics, and their downstream effects on transcriptional networks, providing valuable insights into the fundamental mechanisms of gene expression regulation. Such studies are crucial in elucidating the functional roles of ZNF232 and its influence on broader biological systems.

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Items 1 to 10 of 11 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

5-Azacytidine

320-67-2sc-221003
500 mg
$280.00
4
(1)

DNA methyltransferase inhibitor that can alter gene expression patterns, possibly affecting ZNF232-regulated genes.

Trichostatin A

58880-19-6sc-3511
sc-3511A
sc-3511B
sc-3511C
sc-3511D
1 mg
5 mg
10 mg
25 mg
50 mg
$149.00
$470.00
$620.00
$1199.00
$2090.00
33
(3)

Histone deacetylase inhibitor that can change chromatin structure, potentially impacting ZNF232 DNA binding.

Suberoylanilide Hydroxamic Acid

149647-78-9sc-220139
sc-220139A
100 mg
500 mg
$130.00
$270.00
37
(2)

Histone deacetylase inhibitor that can alter chromatin accessibility, potentially affecting ZNF232's interaction with DNA.

MS-275

209783-80-2sc-279455
sc-279455A
sc-279455B
1 mg
5 mg
25 mg
$24.00
$88.00
$208.00
24
(2)

Histone deacetylase inhibitor that can lead to changes in gene transcription, potentially influencing ZNF232 activity.

RG 108

48208-26-0sc-204235
sc-204235A
10 mg
50 mg
$128.00
$505.00
2
(1)

DNA methyltransferase inhibitor that can cause demethylation of genes, potentially affecting the transcriptional activity of ZNF232.

(±)-JQ1

1268524-69-1sc-472932
sc-472932A
5 mg
25 mg
$226.00
$846.00
1
(0)

BET bromodomain inhibitor that can alter transcription factor recruitment, potentially affecting ZNF232 regulatory functions.

I-BET 151 Hydrochloride

1300031-49-5 (non HCl Salt)sc-391115
10 mg
$450.00
2
(0)

Inhibits BET bromodomains, potentially altering the transcriptional programs that ZNF232 is part of.

5-Aza-2′-Deoxycytidine

2353-33-5sc-202424
sc-202424A
sc-202424B
25 mg
100 mg
250 mg
$214.00
$316.00
$418.00
7
(1)

DNA methyltransferase inhibitor that can lead to hypomethylation of DNA and affect gene expression, possibly impacting ZNF232.

Mocetinostat

726169-73-9sc-364539
sc-364539B
sc-364539A
5 mg
10 mg
50 mg
$210.00
$242.00
$1434.00
2
(1)

Histone deacetylase inhibitor that could potentially affect chromatin structure and ZNF232 function.

Disulfiram

97-77-8sc-205654
sc-205654A
50 g
100 g
$52.00
$87.00
7
(1)

Aldehyde dehydrogenase inhibitor that can affect acetylation levels, potentially influencing ZNF232-mediated transcription.