Date published: 2025-12-5
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Apoptosis Inducers

Santa Cruz Biotechnology now offers a broad range of apoptosis inducers for use in various applications. Apoptosis inducers are chemical compounds that trigger programmed cell death, a vital process in maintaining cellular homeostasis and development. These compounds are essential in scientific research for studying the mechanisms of apoptosis, understanding cellular responses to stress, and investigating the pathways involved in cell cycle regulation. Researchers use apoptosis inducers to explore how cells regulate their own death in response to internal and external signals, which is crucial for understanding processes like tissue development, immune response, and the removal of damaged or diseased cells. In molecular biology, apoptosis inducers help identify and characterize the roles of various proteins and genes involved in the apoptotic pathways, such as caspases, Bcl-2 family proteins, and death receptors. Environmental scientists examine the effects of apoptosis inducers on ecosystems, particularly in understanding how these compounds influence cell death in various organisms and their potential as environmental contaminants. In agricultural research, apoptosis inducers are used to study plant cell death mechanisms, which can lead to improvements in crop resilience and stress responses. Additionally, apoptosis inducers are employed in the development of advanced materials and biotechnological applications, where controlled cell death is necessary for tissue engineering and regenerative medicine research. The wide-ranging applications of apoptosis inducers in scientific research highlight their importance in advancing our understanding of cellular processes and developing innovative solutions across multiple fields. View detailed information on our available apoptosis inducers by clicking on the product name.

Items 131 to 134 of 134 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

SU 9516

377090-84-1sc-222330
sc-222330A
5 mg
25 mg
$122.00
$383.00
3
(1)

SU 9516 functions as a potent apoptosis inducer by selectively targeting mitochondrial pathways. It enhances the release of cytochrome c, which activates the intrinsic apoptotic cascade. This compound also modulates Bcl-2 family proteins, tipping the balance towards pro-apoptotic members. Its unique interaction with cellular membranes facilitates the formation of reactive oxygen species, further driving the apoptotic process. The compound exhibits a rapid engagement with cellular targets, underscoring its dynamic role in apoptosis regulation.

BX-912

702674-56-4sc-364451
sc-364451A
2 mg
5 mg
$124.00
$260.00
1
(1)

BX-912 acts as a powerful apoptosis inducer by disrupting key signaling pathways within the cell. It specifically inhibits the activity of certain kinases, leading to the activation of stress response mechanisms that promote cell death. This compound also influences the phosphorylation status of various proteins, altering their interactions and stability. Its ability to generate reactive oxygen species enhances cellular stress, pushing cells towards apoptosis through a cascade of molecular events.

Sodium dichloroacetate

2156-56-1sc-203275
sc-203275A
10 g
50 g
$54.00
$205.00
6
(1)

Sodium dichloroacetate functions as an apoptosis inducer by modulating metabolic pathways, particularly by inhibiting pyruvate dehydrogenase kinase. This inhibition leads to increased pyruvate oxidation and a shift in cellular energy metabolism, promoting oxidative stress. The compound also influences mitochondrial dynamics, enhancing the release of pro-apoptotic factors. Its unique ability to alter cellular redox states and metabolic flux contributes to the initiation of programmed cell death.

Gambogic Acid

2752-65-0sc-200137
sc-200137A
sc-200137B
sc-200137C
sc-200137D
5 mg
25 mg
100 mg
500 mg
1 g
$85.00
$243.00
$419.00
$720.00
$1230.00
5
(1)

Gambogic Acid acts as an apoptosis inducer through its interaction with various signaling pathways, particularly by activating caspases and promoting the release of cytochrome c from mitochondria. This compound disrupts the balance of pro- and anti-apoptotic proteins, leading to mitochondrial membrane permeabilization. Additionally, it enhances reactive oxygen species production, further driving the apoptotic process by inducing cellular stress responses and DNA damage.

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