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β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

Category

L-Amino Acids

Catalog number

BAT-002208

Molecular Formula

C16H15ClN2O3

Molecular Weight

318.76

Specification
Application

Synonyms

H-Ala(2-Acd)-OH HCl; H-acdAla-OH HCl; (2S)-2-Amino-3-(9-oxo-10H-acridin-2-yl)propanoic acid hydrochloride

β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride is a chemical compound with a multitude of applications across various bioscience fields. Here are the key applications of this compound described with high perplexity and burstiness:

Fluorescent Labeling: Renowned for its utility in molecular and cellular biology, β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride serves as a vibrant fluorescent label. Its acridine moiety emits a powerful fluorescence, rendering it a prime choice for staining nucleic acids within cells and tissues. Scientists leverage its illuminating properties to visualize the intricate distribution and precise localization of DNA and RNA within biological samples when scrutinized under the lens of a fluorescence microscope.

DNA Intercalation Studies: This compound plays a pivotal role in unraveling the mysteries of DNA intercalation and binding interactions. With the prowess to wedge itself snugly between DNA base pairs, β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride stands as an indispensable tool for exploring the nuances of DNA structure and dynamics. It facilitates the exploration of how various entities, be it drugs, proteins, or other molecules, engage with DNA, offering profound insights into the realm of nucleic acid chemistry and biology.

Cancer Research: Within the realm of oncology, β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride emerges as a cornerstone for investigating the mechanisms underpinning anti-cancer drugs. Its unique ability to slide effortlessly between DNA strands makes it a potent asset for scrutinizing compounds that target DNA within cancer cells. Researchers harness its capabilities to evaluate the efficacy of novel chemotherapeutic agents and to dissect their biochemical impacts on cancer cell proliferation, paving the way for groundbreaking strides in cancer treatment.

Enzyme Activity Assays: In the realm of enzyme activity assays, specifically those involving DNA-modifying enzymes, this compound emerges as a vital player. By furnishing a fluorescent readout, β-[Acridine-9(10H)-on-2-yl]-L-alanine hydrochloride empowers researchers to meticulously monitor the activities of enzymes such as topoisomerases and polymerases. This application holds profound significance in drug discovery and the formulation of enzyme inhibitors, playing a pivotal role in advancing the frontiers of bioscience.