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154012-03-0

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154012-03-0 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 154012-03-0 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,5,4,0,1 and 2 respectively; the second part has 2 digits, 0 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 154012-03:
(8*1)+(7*5)+(6*4)+(5*0)+(4*1)+(3*2)+(2*0)+(1*3)=80
80 % 10 = 0
So 154012-03-0 is a valid CAS Registry Number.

154012-03-0Downstream Products

154012-03-0Relevant academic research and scientific papers

Heterogeneous copper-catalyzed coupling of amines: a possible way for the preparation of imines

Magyar, ágnes,Hell, Zoltán

, p. 1583 - 1589 (2016)

Copper(II) on 4-? molecular sieves is an efficient catalyst for the preparation of imines from benzylamines under simple reaction conditions. No oxidative atmosphere or oxidizing agents are required. Preparative experiments showed that no aldehyde intermediate can be detected even under ambient atmospheric conditions. Graphical abstract: [Figure not available: see fulltext.]

One-Pot Construction of Diverse β-Lactam Scaffolds via the Green Oxidation of Amines and Its Application to the Diastereoselective Synthesis of β-Amino Acids

Yamamoto, Yuki,Kodama, Shintaro,Nishimura, Riku,Nomoto, Akihiro,Ueshima, Michio,Ogawa, Akiya

, p. 11571 - 11582 (2021/08/20)

In this study, a simple one-pot construction of β-lactam scaffolds was successfully achieved via 4,6-dihydroxysalicylic acid-catalyzed organocatalytic oxidation of amines to imines using molecular oxygen. Although some imines are highly unstable and difficult to isolate by conventional methods, the organocatalytic oxidation of amines described herein, followed by their direct reaction with acyl chlorides in the presence of a base, afforded a series of new β-lactam derivatives with excellent cis selectivity, which could not be synthesized and isolated by previously reported methods. Thus, this one-pot protocol will be one of the powerful methods applicable to the synthesis of various potential drug candidates and functional molecules. Furthermore, the subsequent hydrolysis of these β-lactams successfully afforded the corresponding β-amino acids as almost single diastereomers in up to 99% yields.

2,4,6-Trihydroxybenzoic Acid-Catalyzed Oxidative Ugi Reactions with Molecular Oxygen via Homo- And Cross-Coupling of Amines

Dong, Chun-Ping,Uematsu, Akinori,Kumazawa, Shun,Yamamoto, Yuki,Kodama, Shintaro,Nomoto, Akihiro,Ueshima, Michio,Ogawa, Akiya

, p. 11562 - 11571 (2019/10/03)

Metal-free, oxidative four-component Ugi reactions (U-4CRs) were conducted to synthesize dipeptides from two different amines, isocyanides, and carboxylic acids using 2,4,6-trihydroxybenzoic acid catalyst in O2 atmosphere. The organocatalytic U-4CRs proceed via oxidative cross-coupling of benzylamines with other aliphatic or aromatic amines to form imines, followed by condensation with isocyanides and carboxylic acids. The U-4CRs via cross-coupling of amines are rare, and the simple, metal-free procedures are advantageous for further applications in drug and heterocycle syntheses.

Synthesis of N-substituted N-nitrosohydroxylamines as inhibitors of mushroom tyrosinase

Shiino, Mitsuhiro,Watanabe, Yumi,Umezawa, Kazuo

, p. 1233 - 1240 (2007/10/03)

A series of N-substituted N-nitrosohydroxylamines including six new compounds were synthesized and examined for inhibition of mushroom tyrosinase. Corresponding hydroxylamines were reacted with n-butyl nitrite to give substituted nitrosohydroxylamines as their ammonium salt. The N-substituted hydroxylamines were prepared from the primary amines via the oxaziridine, or from the carbonyl compounds via the oxime. Most of the nitrosohydroxylamines tested inhibited mushroom tyrosinase. Among them, N-cyclopentyl-N-nitrosohydroxylamine exhibited the most potent activity (IC50=0.6 μM), as powerful as that of tropolone, one of the most powerful inhibitors. As removal of nitroso or hydroxyl moiety, the enzyme inhibitory activity was completely diminished. Both N-nitroso group and N-hydroxy group were suggested to be essential for the activity, probably by interacting with the copper ion at the active site of the enzyme. Lineweaver-Burk plotting showed that cupferron was a competitive inhibitor but that N-cyclopentyl-N-nitrosohydroxylamine was not.

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