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27451-21-4

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27451-21-4 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 27451-21-4 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,7,4,5 and 1 respectively; the second part has 2 digits, 2 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 27451-21:
(7*2)+(6*7)+(5*4)+(4*5)+(3*1)+(2*2)+(1*1)=104
104 % 10 = 4
So 27451-21-4 is a valid CAS Registry Number.
InChI:InChI=1/C9H11NO2/c1-7-3-5-9(6-4-7)10(12)8(2)11/h3-6,12H,1-2H3

27451-21-4SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 19, 2017

Revision Date: Aug 19, 2017

1.Identification

1.1 GHS Product identifier

Product name N-hydroxy-N-(4-methylphenyl)acetamide

1.2 Other means of identification

Product number -
Other names N-(4-Methylphenyl)acetohydroxamsaeure

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:27451-21-4 SDS

27451-21-4Relevant academic research and scientific papers

Transketolase Catalyzed Synthesis of N-Aryl Hydroxamic Acids

Fúster Fernández, Inés,Hecquet, Laurence,Fessner, Wolf-Dieter

supporting information, p. 612 - 621 (2021/12/08)

Hydroxamic acids are metal-chelating compounds that show important biological activity including anti-tumor effects. We have recently engineered the transketolase from Geobacillus stearothermopilus (TKgst) to convert benzaldehyde as a non-natur

Hydroxamic Acids as Chemoselective (ortho-Amino)arylation Reagents via Sigmatropic Rearrangement

Shaaban, Saad,Tona, Veronica,Peng, Bo,Maulide, Nuno

supporting information, p. 10938 - 10941 (2017/08/30)

The use of readily available hydroxamic acids as reagents for the chemoselective (ortho-amino)arylation of amides is described. This reaction proceeds under metal-free, mild conditions, displays a very broad scope, and constitutes a direct approach for the metal-free attachment of aniline residues to carbonyl derivatives.

TRIFLUOROMETHOXYLATION OF ARENES VIA INTRAMOLECULAR TRIFLUOROMETHOXY GROUP MIGRATION

-

Page/Page column 80-81, (2016/05/02)

The present invention provides a process of producing a trifluoromethoxylated aryl or trifluoromethoxylated heteroaryl having the structure: (I), wherein A is an aryl or heteroaryl, each with or without subsutitution; and R1 is -H, -(alkyl), -(alkenyl), -(alkynyl), -(aryl), -(heteroaryl), - (alkylaryl), - (alkylheteroaryl), -NH-(alkyl), -N(alkyl)2, -NH-(alkenyl), -NH-(alkynyl) -NH-(aryl), -NH-(heteroaryl), -O-(alkyl), -O-(alkenyl), -O-(alkynyl), -O-(aryl), -O-(heteroaryl), -S-(alkyl), -S- (alkenyl), -S-(alkynyl), -S-(aryl), or -S-(heteroaryl), comprising: (a) reacting a compound having the structure: (II), with a trifluoromethylating agent in the presence of a base in a first suitable solvent under conditions to produce a compound having the structure: (III); and (b) maintaining the compound produced in step (a) in a second suitable solvent under conditions sufficient to produce the trifluoromethoxylated aryl or trifluormethoxylated heteroaryl having the structure: (I).

Mechanistic studies on intramolecular C-H trifluoromethoxylation of (hetero)arenes via OCF3-migration

Lee, Katarzyna N.,Lei, Zhen,Morales-Rivera, Cristian A.,Liu, Peng,Ngai, Ming-Yu

supporting information, p. 5599 - 5605 (2016/07/06)

The one-pot two-step intramolecular aryl and heteroaryl C-H trifluoromethoxylation recently reported by our group has provided a general, scalable, and operationally simple approach to access a wide range of unprecedented and valuable OCF3-containing building blocks. Herein we describe our investigations to elucidate its reaction mechanism. Experimental data indicate that the O-trifluoromethylation of N-(hetero)aryl-N-hydroxylamine derivatives is a radical process, whereas the OCF3-migration step proceeds via a heterolytic cleavage of the N-OCF3 bond followed by rapid recombination of a short-lived ion pair. Computational studies further support the proposed ion pair reaction pathway for the OCF3-migration process. We hope that the current study would provide useful insights for the development of new transformations using versatile N-(hetero)aryl-N-hydroxylamine synthons.

Rhodium(III)-catalyzed internal oxidative coupling of N-hydroxyanilides with alkenes via C-H activation

Wen, Jing,Wu, An,Chen, Pei,Zhu, Jin

supporting information, p. 5282 - 5286 (2015/08/26)

Abstract Described herein is an efficient new method for ortho-olefination of anilides in the presence of AgSbF6 and NaOAc via rhodium(III)-catalyzed internal oxidative C-H bond activation based on hydroxyl as directing and oxidative group. A range of alkenes and functional groups on acetanilides is supported and a possible mechanism is proposed according to the experimental results.

Trifluoromethoxylation of arenes: Synthesis of ortho- Trifluoromethoxylated aniline derivatives by OCF3 migration

Hojczyk, Katarzyna N.,Feng, Pengju,Zhan, Chengbo,Ngai, Ming-Yu

supporting information, p. 14559 - 14563 (2015/01/09)

Aryl trifluoromethoxylation by a two-step sequence of O-trifluoromethylation of N-aryl-N-hydroxylamine derivatives and intramolecular OCF3 migration is presented. This protocol allows easy access to a wide range of synthetically useful ortho-OCF3 aniline derivatives. In addition, it utilizes bench-stable reagents, is operationally simple, shows high functional-group tolerance, and is amenable to gram-scale as well as one-pot synthesis.Areaction mechanism of a heterolytic cleavage of the N-OCF3 bond followed by recombination of the resulting nitrenium ion and trifluoromethoxide is proposed for the OCF3-migration reaction.

Synthesis of site-specific damaged DNA strands by 8-(acetylarylamino)- 2′-deoxyguanosine adducts and effects on various DNA polymerases

Krueger, Sarah,Meier, Chris

, p. 1158 - 1169 (2013/04/10)

Beside the predominately found 8-(arylamino)-2′-dG, 8-(acetylarylamino) damages within DNA-strands may also play an important role in the induction of chemical carcinogenesis. A synthesis pathway leading to these 8-(acetylarylamino)-dG adducts using different aromatic amines has been optimized. The 8-modified dGs were converted into the corresponding phosphoramidites and site-specifically incorporated into different oligonucleotides leading to DNA strands. Lesion-bearing hybrids of these damaged DNA-strands with complementary oligonucleotides were used to study their melting properties and their circular dichroism spectra. It was shown that no EcoRI restriction took place with the damage inside the cleavage site. Finally, three different DNA polymerases were used for primer extension studies. C8-NAc-Arylamine adducts of 2′-deoxyguanosine with various aromatic amines were synthesized by using cross-coupling reactions and converted into 3′-phosphoramidites. Site-specific damaged NarI-, EcoRI- and 20mer-oligonucleotides were prepared by automated DNA-synthesis. Biophysical properties, restriction endonuclease studies and DNA-polymerase assays were performed. Copyright

C-N bond formation followed by N-Cl bond breaking. One more and unexpected case of the formation of a hydroxamic group via heterolytic bond cleavage

Vinkovi? Vr?ek, Ivana,Pilepi?, Viktor,Ur?i?, Stanko

, p. 699 - 702 (2007/10/03)

An unexpected and previously unknown reaction sequence in the interactions of the acyl halides with nitrosobenzenes, which involves carbon-nitrogen bond formation followed by heterolytic nitrogen-chlorine bond cleavage giving the corresponding unsubstituted N-phenylalkylhydroxamic acids (or N-phenylarylhydroxamic acids) and chlorine as the products has been observed. The kinetic and other evidence obtained suggest that the carbon-nitrogen bond formation is the consequence of a nucleophilic interaction of an N-phenylchlorohydroxylamine intermediate, formed in the first reaction step, with the acyl halide in the second step of the complex sequence, which leads to an N-acyl-N-chlorophenylhydroxylamine cation intermediate. The key reaction step involves the interaction of an N-acyl-N-chlorophenylhydroxylamine cation intermediate with chloride ion, which leads to the N-Cl heterolytic bond cleavage and the final formation of the hydroxamic group and a molecule of chlorine.

N-Aryl-O-(α-aminoacyl)hydroxylamines: Model Reactions for the Activation of Monocyclic Aromatic Amines into Ultimate Carcinogens with α-Amino Acids

Meier, Chris,Boche, Gernot

, p. 1691 - 1698 (2007/10/02)

The rearrangement of the new α-aminohydroxamic acids 15 and 18 to the likewise new N-(α-aminoacyloxy)arylamines 19 and 20, respectively, is observed in amine-catalyzed model reactions.N-(acyloxy)arylamines such as 19 and 20 are indicated to be ultimate carcinogens of aromatic amines which are able to react with bionucleophiles such as the DNA bases.The formation of 19 and 20 was proven by trapping these reactive intermediates with the model nucleophile N-methylaniline (21) to give the hydrazines 22 and - depending on the substituent in 19 and 20 - the so-called ortho amination products 23.Analogous reactions of the aceto- and pivalohydroxamic acids 24 and 25 lead also to the adducts 22 and 23, respectively, in comparable yields.These results demonstrate that the O-α-aminoacylation as shown here may be similarily used in model reactions for the activation of carcinogenic aromatic amines as the O-acetylation.

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