Date published: 2025-10-26

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TRNT1 Inhibitors

TRNT1 inhibitors belong to a class of chemical compounds designed to target and modulate the activity of the enzyme TRNT1, which stands for tRNA nucleotidyltransferase 1. TRNT1 plays a pivotal role in tRNA (transfer RNA) processing and maturation, a fundamental process in the synthesis of functional tRNAs, which are essential for protein translation. This enzyme catalyzes the addition of a cytidine monophosphate (CMP) group to the 3' end of tRNA molecules, ensuring their proper folding and functionality in the translation machinery. By modifying tRNA molecules, TRNT1 is critical for maintaining the accuracy and efficiency of protein synthesis in cells. Inhibitors developed to target TRNT1 are primarily employed in molecular and cellular biology research to investigate the functional properties and regulatory mechanisms associated with this enzyme. The development of TRNT1 inhibitors typically involves a combination of biochemical, biophysical, and structural approaches aimed at identifying or designing molecules that can selectively interact with TRNT1 and modulate its enzymatic activity. By inhibiting TRNT1, these compounds disrupt the tRNA maturation process, leading to defects in protein translation and cellular functions dependent on accurate protein synthesis. Researchers use TRNT1 inhibitors to explore the intricate roles played by this enzyme in cellular functions, attempting to unravel its contributions to translational fidelity, tRNA modification, and interactions with other cellular pathways. Furthermore, these inhibitors serve as valuable tools for dissecting the broader network of cellular processes involving tRNA maturation and its regulatory roles in maintaining cellular homeostasis, contributing to our understanding of fundamental cell biology mechanisms and providing insights into avenues for further scientific exploration.

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)

Interacts with DNA and inhibits RNA polymerase, potentially reducing TRNT1 mRNA synthesis.

Rifampicin

13292-46-1sc-200910
sc-200910A
sc-200910B
sc-200910C
1 g
5 g
100 g
250 g
$95.00
$322.00
$663.00
$1438.00
6
(1)

Inhibits bacterial RNA polymerase but may affect mitochondrial RNA polymerase, indirectly influencing TRNT1 expression.

α-Amanitin

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

Inhibits eukaryotic RNA polymerase II, potentially decreasing TRNT1 mRNA levels.

Mitomycin C

50-07-7sc-3514A
sc-3514
sc-3514B
2 mg
5 mg
10 mg
$65.00
$99.00
$140.00
85
(5)

Crosslinks DNA, which can inhibit transcription and potentially decrease TRNT1 expression.

Camptothecin

7689-03-4sc-200871
sc-200871A
sc-200871B
50 mg
250 mg
100 mg
$57.00
$182.00
$92.00
21
(2)

Inhibits DNA topoisomerase I, leading to decreased transcription and potentially lower TRNT1 levels.

Etoposide (VP-16)

33419-42-0sc-3512B
sc-3512
sc-3512A
10 mg
100 mg
500 mg
$32.00
$170.00
$385.00
63
(1)

Inhibits DNA topoisomerase II, potentially altering transcription and reducing TRNT1 expression.

Doxorubicin

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

DNA intercalator that can inhibit macromolecular biosynthesis, possibly affecting TRNT1 expression.

Acridine Orange solution

65-61-2sc-473594
10 ml
$163.00
2
(0)

Binds to DNA and can inhibit transcription, potentially decreasing TRNT1 mRNA levels.

Aphidicolin

38966-21-1sc-201535
sc-201535A
sc-201535B
1 mg
5 mg
25 mg
$82.00
$300.00
$1082.00
30
(3)

Inhibits DNA polymerase, which might lead to a reduction in TRNT1 expression.

β-Lapachone

4707-32-8sc-200875
sc-200875A
5 mg
25 mg
$110.00
$450.00
8
(1)

Induces DNA damage response, possibly leading to reduced expression of TRNT1.