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315712-56-2

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315712-56-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 315712-56-2 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 3,1,5,7,1 and 2 respectively; the second part has 2 digits, 5 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 315712-56:
(8*3)+(7*1)+(6*5)+(5*7)+(4*1)+(3*2)+(2*5)+(1*6)=122
122 % 10 = 2
So 315712-56-2 is a valid CAS Registry Number.

315712-56-2Relevant academic research and scientific papers

Solar and visible-light active nano Ni/g-C3N4photocatalyst for carbon monoxide (CO) and ligand-free carbonylation reactions

Hosseini-Sarvari, Mona,Akrami, Zahra

, p. 956 - 969 (2021/02/26)

In this study, we investigate the amino and alkoxycarbonylation reaction between various substituted aryl halides, benzyl iodides, and iodocyclohexane with different types of amines and alcohols in the absence of carbon monoxide gas and ligands. Similar reactions are carried out at high temperatures, in the presence of appropriate ligands, stoichiometric amounts of bases, and gaseous carbon monoxide, which endanger the health of organic chemists. We present a novel method that does not utilize ligands, bases, gaseous CO, and special conditions. This procedure is a redox reaction carried out by new economic nano Ni/g-C3N4at room temperature and under visible light. Mo(CO)6was used toin situgenerate CO, to resolve the problems caused by the use of CO gas. This protocol has the ability to be used on a gram scale by using a continuous flow reactor.

FARNESOID X RECEPTOR AGONISTS AND USES THEREOF

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Paragraph 00431, (2017/04/11)

Described herein are compounds that are farnesoid X receptor agonists, methods of making such compounds, pharmaceutical compositions and medicaments comprising such compounds, and methods of using such compounds in the treatment of conditions, diseases, or disorders associated with farnesoid X receptor activity.

Base-catalyzed synthesis of aryl amides from aryl azides and aldehydes

Xie, Sheng,Zhang, Yang,Ramstr?m, Olof,Yan, Mingdi

, p. 713 - 718 (2015/12/30)

Aryl amides have been used as important compounds in pharmaceuticals, materials and in molecular catalysis. The methods reported to prepare aryl amides generally require very specific reagents, and the most popular carboxyl-amine coupling reactions demand stoichiometric activators. Herein, we report that aryl azides react with aldehydes under base-catalyzed conditions to yield aryl amides efficiently. Mechanistic investigations support the formation of triazoline intermediates via azide-enolate cycloaddition, which subsequently undergo rearrangement to give amides by either thermal decomposition (20-140 °C) or aqueous acid work-up at room temperature. The strategy does not require nucleophilic anilines and is especially efficient for highly electron-deficient aryl amides, including perfluoroaryl amides, which are otherwise challenging to synthesize.

Potent and selective inhibitors of the TASK-1 potassium channel through chemical optimization of a bis-amide scaffold

Flaherty, Daniel P.,Simpson, Denise S.,Miller, Melissa,Maki, Brooks E.,Zou, Beiyan,Shi, Jie,Wu, Meng,McManus, Owen B.,Aubé, Jeffrey,Li, Min,Golden, Jennifer E.

, p. 3968 - 3973 (2014/09/03)

TASK-1 is a two-pore domain potassium channel that is important to modulating cell excitability, most notably in the context of neuronal pathways. In order to leverage TASK-1 for therapeutic benefit, its physiological role needs better characterization; however, designing selective inhibitors that avoid the closely related TASK-3 channel has been challenging. In this study, a series of bis-amide derived compounds were found to demonstrate improved TASK-1 selectivity over TASK-3 compared to reported inhibitors. Optimization of a marginally selective hit led to analog 35 which displays a TASK-1 IC 50 = 16 nM with 62-fold selectivity over TASK-3 in an orthogonal electrophysiology assay.

Synthesis and structure-property relationships of amphiphilic organogelators

Mohmeyer, Nils,Schmidt, Hans-Werner

, p. 4499 - 4509 (2008/02/08)

A series of low-molecular-weight amphiphilic molecules was synthesized and investigated for their ability to gel organic solvents. These amphiphilic molecules are composed of a head-group moiety capable of forming intermolecular associations through hydro

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