Date published: 2025-11-1

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FBL19 Inhibitors

Chemicals classified as FBL19 Inhibitors represent a diverse array of compounds that influence various stages of the gene expression pathway. This class includes inhibitors that affect DNA transcription, mRNA processing, translation, and post-translational modifications. For instance, Actinomycin D and α-Amanitin act early in the gene expression process, directly inhibiting RNA polymerase activity and thus reducing the overall levels of mRNA available for translation. DRB further affects this process by specifically targeting RNA polymerase II, a critical enzyme in the synthesis of mRNA, thereby impeding the transcriptional elongation process. In the subsequent steps of gene expression, Cordycepin and Ribavirin interfere with mRNA stability and integrity. Cordycepin causes premature termination of mRNA elongation, while Ribavirin disrupts nucleic acid metabolism, which can lead to mutations or halts in RNA replication and transcription. This can prevent the proper synthesis of mRNAs that are required for the production of proteins, including FBL19. In addition, Tunicamycin disrupts protein folding by inhibiting N-linked glycosylation, which may affect proteins like FBL19 if they require glycosylation for stability or function. As for translation inhibitors, Cycloheximide, Puromycin, Homoharringtonine, Anisomycin, and Emetine target the ribosome, the cellular machinery responsible for synthesizing proteins. Cycloheximide interrupts the translocation step on the ribosome, while Puromycin causes premature chain termination by mimicking aminoacyl-tRNA. Homoharringtonine, Anisomycin, and Emetine each bind to different sites on the ribosome to inhibit peptide bond formation and ribosomal translocation. These actions culminate in halted protein synthesis, which would prevent the accumulation of functional FBL19 proteins.

Items 1 to 10 of 11 total

Display:

Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

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)

Interferes with DNA-dependent RNA polymerases, thus inhibiting RNA transcription.

α-Amanitin

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

Specifically inhibits RNA polymerase II and impacts mRNA synthesis.

DRB

53-85-0sc-200581
sc-200581A
sc-200581B
sc-200581C
10 mg
50 mg
100 mg
250 mg
$42.00
$185.00
$310.00
$650.00
6
(1)

Inhibits RNA polymerase II by blocking the phosphorylation of the C-terminal domain, affecting mRNA elongation.

Cordycepin

73-03-0sc-203902
10 mg
$99.00
5
(1)

Acts as an adenosine analog, leading to premature termination of mRNA chain elongation.

Ribavirin

36791-04-5sc-203238
sc-203238A
sc-203238B
10 mg
100 mg
5 g
$62.00
$108.00
$210.00
1
(1)

Mimics nucleoside structures and disrupts nucleic acid metabolism, affecting RNA replication and transcription.

Tunicamycin

11089-65-9sc-3506A
sc-3506
5 mg
10 mg
$169.00
$299.00
66
(3)

Blocks N-linked glycosylation, which can disrupt the folding and stability of proteins, including FBL19 if it is glycosylated.

Cycloheximide

66-81-9sc-3508B
sc-3508
sc-3508A
100 mg
1 g
5 g
$40.00
$82.00
$256.00
127
(5)

Inhibits eukaryotic protein synthesis by interfering with ribosomal translocation.

Puromycin dihydrochloride

58-58-2sc-108071
sc-108071B
sc-108071C
sc-108071A
25 mg
250 mg
1 g
50 mg
$40.00
$210.00
$816.00
$65.00
394
(15)

Causes premature polypeptide chain termination during translation by acting as an analog of aminoacyl-tRNA.

Homoharringtonine

26833-87-4sc-202652
sc-202652A
sc-202652B
1 mg
5 mg
10 mg
$51.00
$123.00
$178.00
11
(1)

Inhibits protein elongation by binding to the A-site of the ribosome.

Anisomycin

22862-76-6sc-3524
sc-3524A
5 mg
50 mg
$97.00
$254.00
36
(2)

Inhibits peptidyl transferase activity of the ribosome, halting protein synthesis.