75586-67-3Relevant academic research and scientific papers
An acridinium-based sensor as a fluorescent photoinduced electron transfer probe for proton detection modulated by anionic micelles
Basili, Stefano,Del Giacco, Tiziana,Elisei, Fausto,Germani, Raimondo
, p. 6677 - 6683 (2014)
A water-soluble fluorescent pH sensor of 9-amino-10-methylacridinium chromophore with the 2-(diethylamine)ethyl chain as a receptor shows an off-on response going from basic to acidic solution. Photoinduced electron transfer has been directly demonstrated to be the quenching mechanism by the observation of the long-lived acridinyl radical. The interaction of the protonated sensor with anionic micelles causes a significant increase in the detection sensitivity of pH. This journal is the Partner Organisations 2014.
Design, synthesis and evaluation of novel 9-arylalkyl-10-methylacridinium derivatives as highly potent FtsZ-targeting antibacterial agents
Song, Di,Zhang, Nan,Zhang, Panpan,Zhang, Na,Chen, Weijin,Zhang, Long,Guo, Ting,Gu, Xiaotong,Ma, Shutao
, (2021/05/10)
With the increasing incidence of antibiotic resistance, new antibacterial agents having novel mechanisms of action hence are in an urgent need to combat infectious diseases caused by multidrug-resistant (MDR) pathogens. Four novel series of substituted 9-arylalkyl-10-methylacridinium derivatives as FtsZ inhibitors were designed, synthesized and evaluated for their antibacterial activities against various Gram-positive and Gram-negative bacteria. The results demonstrated that they exhibited broad-spectrum activities with substantial efficacy against MRSA and VRE, which were superior or comparable to the berberine, sanguinarine, linezolid, ciprofloxacin and vancomycin. In particular, the most promising compound 15f showed rapid bactericidal properties, which avoid the emergence of drug resistance. However, 15f showed no inhibitory effect on Gram-negative bacteria but biofilm formation study gave possible answers. Further target identification and mechanistic studies revealed that 15f functioned as an effective FtsZ inhibitor to alter the dynamics of FtsZ self-polymerization, which resulted in termination of the cell division and caused cell death. Further cytotoxicity and animal studies demonstrated that 15f not only displayed efficacy in a murine model of bacteremia in vivo, but also no significant hemolysis to mammalian cells. Overall, this compound with novel skeleton could serve as an antibacterial lead of FtsZ inhibitor for further evaluation of drug-likeness.
Aromatic heterocycle substituted acridine quaternary ammonium salt derivative as well as preparation method and application thereof
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, (2021/09/29)
The invention belongs to the technical field of pharmaceutical compounds, relates to an aromatic heterocyclic substituted acridine quaternary ammonium salt derivative and a preparation method and application thereof, and has the structure shown in a formula (I). In-flight R1 A compound selected from the group consisting of aryl and heteroaryl. Substituted aryls. X Is a halogen or benzenesulfonate anion. The invention provides an aromatic heterocyclic substituted acridine quaternary ammonium salt derivative as well as a preparation method and application thereof, and is designed to synthesize an aromatic heterocyclic substituted acridine quaternary ammonium salt derivative through a simplified structure, and is designed to synthesize an aromatic heterocyclic substituted acridine quaternary ammonium salt derivative so as to achieve the unique antibacterial effect by inhibiting the bacteria FtsZ and bacterial biofilm.
Closing the ring to bring up the light: Synthesis of a hexacyclic acridinium cyanine dye
Mahmood, Tariq,Wu, Yilei,Kuimova, Marina,Loriot, Domitille,Ladame, Sylvain
, p. 12349 - 12356,8 (2012/12/12)
The synthesis of a geometrically constrained and near-planar hexacyclic acridinium cyanine dye 9 is reported. When compared to its unlocked and non-fluorescent monomethine cyanine dye analogue 3, this photostable dye emits in the green area of the spectrum with a remarkable quantum yield close to unity in organic solvents and above 0.5 in water. A detailed steady-state and time-resolved spectroscopic study revealed that dye 9 forms emissive aggregates in water, which are responsible for a red-shifted and broadened emission band and longer emission lifetime, τ≈33 compared to 6.5-7.0-ns for the monomeric dye. Dye 9 also binds strongly to DNA (both duplex and quadruplex) in its monomeric form and is very efficiently taken up by cells, in which it accumulates primarily into the nucleus. Copyright
Closing the ring to bring up the light: Synthesis of a hexacyclic acridinium cyanine dye
Mahmood, Tariq,Wu, Yilei,Loriot, Domitille,Kuimova, Marina,Ladame, Sylvain
, p. 12349 - 12356 (2013/01/14)
The synthesis of a geometrically constrained and near-planar hexacyclic acridinium cyanine dye 9 is reported. When compared to its unlocked and non-fluorescent monomethine cyanine dye analogue 3, this photostable dye emits in the green area of the spectrum with a remarkable quantum yield close to unity in organic solvents and above 0.5 in water. A detailed steady-state and time-resolved spectroscopic study revealed that dye 9 forms emissive aggregates in water, which are responsible for a red-shifted and broadened emission band and longer emission lifetime, τ≈33 compared to 6.5-7.0-ns for the monomeric dye. Dye 9 also binds strongly to DNA (both duplex and quadruplex) in its monomeric form and is very efficiently taken up by cells, in which it accumulates primarily into the nucleus. Copyright
Synthesis and spectroscopic and DNA-binding properties of fluorogenic acridine-containing cyanine dyes
Mahmood, Tariq,Paul, Alexis,Ladame, Sylvain
experimental part, p. 204 - 207 (2010/04/24)
(Chemical Equation Presented) The synthesis of a new subclass of mono- and polymethine cyanine dyes that incorporate an acridinium moiety and that absorb in the orange to near-infrared region of the spectrum is reported. The mono-, tri-, and pentamethine dyes in particular exhibit promising fluorogenic properties. Their ability to aggregate in solution and to interact with B-DNA is also discussed.
