Date published: 2025-10-30

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α3d Tubulin Activators

The term α3d Tubulin Activators would conceptually denote a group of chemical agents that specifically target and modulate the activity of the α3d isoform of tubulin. Tubulin proteins are the building blocks of microtubules, which are essential components of the cytoskeleton in eukaryotic cells. These cylindrical structures provide necessary rigidity, facilitate intracellular transport, and are crucial during cell division. The α3d designation suggests a particular alpha-tubulin isoform, possibly characterized by a distinct amino acid sequence or post-translational modification that differentiates it from other alpha-tubulin isoforms. Activators in this context would be molecules designed to engage with this isoform and enhance its ability to polymerize or interact with microtubule-associated proteins. The identification of such activators would likely involve the use of advanced screening techniques capable of detecting increases in the polymerization rate or stabilization of microtubules specifically containing the α3d isoform. The pursuit of such compounds would necessitate a detailed understanding of the α3d tubulin's structure, the polymerization dynamics of microtubules, and the isoform's specific role within the microtubule network.

Once initial α3d Tubulin Activators have been discovered through chemical library screening or rational design, subsequent research would delve into their precise action mechanism. This would likely employ a suite of sophisticated analytical techniques, including but not limited to, real-time biophysical assays to monitor the impact on microtubule polymerization and depolymerization dynamics. Techniques like total internal reflection fluorescence (TIRF) microscopy might be used to observe the effects of these activators on the behavior of microtubules within living cells. Additionally, structural elucidation methodologies, such as X-ray crystallography or cryo-electron microscopy, would be essential to visualize how these activators bind to the α3d tubulin at the atomic level. Complementary to experimental methods, computational biology techniques could predict how alterations in the activators' molecular structure might influence their interaction with the α3d isoform. The primary goal of developing α3d Tubulin Activators would be to utilize them as biochemical tools to probe the specific functions of the α3d tubulin within cells. By facilitating the study of this isoform's unique contributions to microtubule behavior and cellular dynamics, these activators would enhance our understanding of cell structure and function, providing insight into the molecular diversity of the tubulin family and its implications for the cytoskeletal organization.

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Items 1 to 10 of 12 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

Forskolin

66575-29-9sc-3562
sc-3562A
sc-3562B
sc-3562C
sc-3562D
5 mg
50 mg
1 g
2 g
5 g
$76.00
$150.00
$725.00
$1385.00
$2050.00
73
(3)

Forskolin activates adenylate cyclase, increasing cAMP levels, which can lead to changes in gene expression, potentially including tubulin isotypes.

PMA

16561-29-8sc-3576
sc-3576A
sc-3576B
sc-3576C
sc-3576D
1 mg
5 mg
10 mg
25 mg
100 mg
$40.00
$129.00
$210.00
$490.00
$929.00
119
(6)

PMA activates protein kinase C (PKC) which is involved in various signaling pathways that can modulate gene expression, including that of cytoskeletal proteins.

Fluorouracil

51-21-8sc-29060
sc-29060A
1 g
5 g
$36.00
$149.00
11
(1)

5-FU is a nucleotide analog that can disrupt RNA processing and function, potentially affecting gene expression profiles including tubulin isotypes.

Cisplatin

15663-27-1sc-200896
sc-200896A
100 mg
500 mg
$76.00
$216.00
101
(4)

Cisplatin forms DNA adducts, leading to DNA damage responses that can alter the expression of various genes, including those involved in cell structure and stability.

Cytochalasin D

22144-77-0sc-201442
sc-201442A
1 mg
5 mg
$145.00
$442.00
64
(4)

Cytochalasin D disrupts actin filaments, possibly leading to compensatory changes in microtubule dynamics and tubulin expression.

Dimethyl Sulfoxide (DMSO)

67-68-5sc-202581
sc-202581A
sc-202581B
100 ml
500 ml
4 L
$30.00
$115.00
$900.00
136
(6)

DMSO can influence cell differentiation and proliferation, potentially affecting the expression of a wide range of genes.

17-AAG

75747-14-7sc-200641
sc-200641A
1 mg
5 mg
$66.00
$153.00
16
(2)

17-AAG inhibits Hsp90, which may lead to a cellular stress response that can include changes in the expression of cytoskeletal proteins.

Sodium Butyrate

156-54-7sc-202341
sc-202341B
sc-202341A
sc-202341C
250 mg
5 g
25 g
500 g
$30.00
$46.00
$82.00
$218.00
19
(3)

Sodium butyrate is a histone deacetylase inhibitor that can lead to hyperacetylation of histones and affect gene expression, including tubulin genes.

Doxorubicin

23214-92-8sc-280681
sc-280681A
1 mg
5 mg
$173.00
$418.00
43
(3)

Doxorubicin interacts with DNA by intercalation and can trigger DNA damage responses, potentially affecting tubulin gene expression.

Dichloroacetic acid

79-43-6sc-214877
sc-214877A
25 g
100 g
$60.00
$125.00
5
(0)

Dichloroacetic acid can alter metabolism and gene expression, and may influence the expression of proteins involved in cell structure.