Date published: 2025-10-25

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Hinderin Inhibitors

Hinderin inhibitors represent a class of chemical compounds that target and modulate the function of hinderin, a protein involved in various cellular and biochemical processes. Hinderin itself is known to interact with microtubules, which are crucial components of the cytoskeleton in eukaryotic cells. These interactions affect microtubule dynamics and stability, influencing cell shape, transport, and division. By inhibiting hinderin, these compounds disrupt its ability to regulate microtubule assembly, potentially leading to altered cytoskeletal arrangements and shifts in intracellular transport mechanisms. The inhibition of hinderin is believed to interfere with its specific binding to microtubule-associated proteins (MAPs), which are vital for maintaining cellular homeostasis and structural integrity, especially under stress or in rapidly changing environments. This interference can have significant effects on intracellular signaling pathways that rely on cytoskeletal integrity and movement.

In the context of structural biology, hinderin inhibitors are typically small molecules that are designed to bind to the active site of hinderin or its key regulatory domains. Their chemical structures vary widely but often include regions that facilitate binding to the protein's functional motifs, thereby blocking its interaction with microtubules. Studies on these inhibitors often focus on their molecular mechanisms, such as how they perturb the conformational dynamics of hinderin, which in turn can affect its downstream effects on cytoskeletal architecture. These investigations frequently involve biophysical techniques like X-ray crystallography and nuclear magnetic resonance (NMR) to map the exact binding sites and elucidate the nature of the hinderin-inhibitor complex. The molecular insights gained from these studies help in understanding the fundamental biochemical processes governing cytoskeletal regulation and how small molecules can modulate these processes.

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Items 1 to 10 of 12 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

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)

Trichostatin A is a histone deacetylase inhibitor that can alter chromatin structure and repress gene transcription, potentially reducing KIAA1328 expression.

5-Azacytidine

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

5-Azacytidine is a DNA methyltransferase inhibitor that may prevent methylation-mediated silencing of genes, possibly affecting KIAA1328 expression.

Actinomycin D

50-76-0sc-200906
sc-200906A
sc-200906B
sc-200906C
sc-200906D
5 mg
25 mg
100 mg
1 g
10 g
$73.00
$238.00
$717.00
$2522.00
$21420.00
53
(3)

Actinomycin D intercalates into DNA, inhibiting RNA polymerase and potentially decreasing KIAA1328 mRNA synthesis.

Mithramycin A

18378-89-7sc-200909
1 mg
$54.00
6
(1)

Mithramycin A binds to GC-rich DNA sequences, inhibiting transcription factors and potentially downregulating KIAA1328 expression.

α-Amanitin

23109-05-9sc-202440
sc-202440A
1 mg
5 mg
$260.00
$1029.00
26
(2)

Alpha-amanitin is an RNA polymerase II inhibitor that could theoretically suppress KIAA1328 mRNA transcription.

Rapamycin

53123-88-9sc-3504
sc-3504A
sc-3504B
1 mg
5 mg
25 mg
$62.00
$155.00
$320.00
233
(4)

Sirolimus inhibits mTOR, which may downregulate protein synthesis pathways, potentially affecting KIAA1328 expression.

PD 98059

167869-21-8sc-3532
sc-3532A
1 mg
5 mg
$39.00
$90.00
212
(2)

PD98059 is a MEK inhibitor that might alter the MAPK/ERK pathway, possibly impacting KIAA1328 expression if involved in this pathway.

LY 294002

154447-36-6sc-201426
sc-201426A
5 mg
25 mg
$121.00
$392.00
148
(1)

LY294002 is a PI3K inhibitor, which may affect AKT signaling and could theoretically downregulate KIAA1328 if the pathway is involved.

Chloroquine

54-05-7sc-507304
250 mg
$68.00
2
(0)

Chloroquine can inhibit DNA and RNA synthesis by intercalating into nucleic acids, potentially decreasing KIAA1328 expression.

Triptolide

38748-32-2sc-200122
sc-200122A
1 mg
5 mg
$88.00
$200.00
13
(1)

Triptolide is known to inhibit transcriptional activity of NF-κB, which may lead to reduced expression of some genes, possibly including KIAA1328.