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Benzenebutanoic acid, a-(diethoxyphosphinyl)-, ethyl ester is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

130900-33-3

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130900-33-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 130900-33-3 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,3,0,9,0 and 0 respectively; the second part has 2 digits, 3 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 130900-33:
(8*1)+(7*3)+(6*0)+(5*9)+(4*0)+(3*0)+(2*3)+(1*3)=83
83 % 10 = 3
So 130900-33-3 is a valid CAS Registry Number.

130900-33-3Downstream Products

130900-33-3Relevant academic research and scientific papers

Further insights into the SAR of α-substituted cyclopropylamine derivatives as inhibitors of histone demethylase KDM1A

Pieroni, Marco,Annunziato, Giannamaria,Azzali, Elisa,Dessanti, Paola,Mercurio, Ciro,Meroni, Giuseppe,Trifiró, Paolo,Vianello, Paola,Villa, Manuela,Beato, Claudia,Varasi, Mario,Costantino, Gabriele

, p. 377 - 386 (2015)

Epigenetics alterations including histone methylation and acetylation, and DNA methylation, are thought to play important roles in the onset and progression of cancer in numerous tumour cell lines. Lysinespecific demethylase 1 (LSD1 or KDM1A) is highly ex

Metallo-β-lactamase inhibitors by bioisosteric replacement: Preparation, activity and binding

Skagseth, Susann,Akhter, Sundus,Paulsen, Marianne H.,Muhammad, Zeeshan,Lauksund, Silje,Samuelsen, ?rjan,Leiros, Hanna-Kirsti S.,Bayer, Annette

, p. 159 - 173 (2017/04/26)

Bacterial resistance is compromising the use of β-lactam antibiotics including carbapenems. The main resistance mechanism against β-lactams is hydrolysis of the β-lactam ring mediated by serine- or metallo-β-lactamases (MBLs). Although several inhibitors of MBLs have been reported, none has been developed into a clinically useful inhibitor. Mercaptocarboxylic acids are among the most prominent scaffolds reported as MBL inhibitors. In this study, the carboxylate group of mercaptocarboxylic acids was replaced with bioisosteric groups like phosphonate esters, phosphonic acids and NH-tetrazoles. The influence of the replacement on the bioactivity and inhibitor binding was evaluated. A series of bioisosteres of previously reported inhibitors was synthesized and evaluated against the MBLs VIM-2, NDM-1 and GIM-1. The most active inhibitors combined a mercapto group and a phosphonate ester or acid, with two/three carbon chains connecting a phenyl group. Surprisingly, also compounds containing thioacetate groups instead of thiols showed low IC50 values. High-resolution crystal structures of three inhibitors in complex with VIM-2 revealed hydrophobic interactions for the diethyl groups in the phosphonate ester (inhibitor 2b), the mercapto bridging the two active site zinc ions, and tight stacking of the benzene ring to the inhibitor between Phe62, Tyr67, Arg228 and His263. The inhibitors show reduced enzyme activity in Escherichia coli cells harboring MBL. The obtained results will be useful for further structural guided design of MBL inhibitors.

Rational Design, Synthesis, and Preliminary Structure-Activity Relationships of α-Substituted-2-Phenylcyclopropane Carboxylic Acids as Inhibitors of Salmonella typhimurium O-Acetylserine Sulfhydrylase

Pieroni, Marco,Annunziato, Giannamaria,Beato, Claudia,Wouters, Randy,Benoni, Roberto,Campanini, Barbara,Pertinhez, Thelma A.,Bettati, Stefano,Mozzarelli, Andrea,Costantino, Gabriele

, p. 2567 - 2578 (2016/04/10)

Cysteine is a building block for several biomolecules that are crucial for living organisms. The last step of cysteine biosynthesis is catalyzed by O-acetylserine sulfydrylase (OASS), a highly conserved pyridoxal 5′-phosphate (PLP)-dependent enzyme, present in different isoforms in bacteria, plants, and nematodes, but absent in mammals. Beside the biosynthesis of cysteine, OASS exerts a series of moonlighting activities in bacteria, such as transcriptional regulation, contact-dependent growth inhibition, swarming motility, and induction of antibiotic resistance. Therefore, the discovery of molecules capable of inhibiting OASS would be a valuable tool to unravel how this protein affects the physiology of unicellular organisms. As a continuation of our efforts toward the synthesis of OASS inhibitors, in this work we have used a combination of computational and spectroscopic approaches to rationally design, synthesize, and test a series of substituted 2-phenylcyclopropane carboxylic acids that bind to the two S. typhymurium OASS isoforms at nanomolar concentrations.

CYCLOPROPYLAMINE DERIVATIVES USEFUL AS INHIBITORS OF HISTONE DEMETHYLASES KDM1A

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Page/Page column 43-44, (2014/06/24)

(I) The present invention relates to cyclopropyl derivatives of general formula (I), wherein A, R1, and R2 are as defined in the specification. The present application also relates to pharmaceutical compositions containing such compounds and to their use in therapy.

Synthesis, biological activity and mechanistic insights of 1-substituted cyclopropylamine derivatives: A novel class of irreversible inhibitors of histone demethylase KDM1A

Vianello, Paola,Botrugno, Oronza A.,Cappa, Anna,Ciossani, Giuseppe,Dessanti, Paola,Mai, Antonello,Mattevi, Andrea,Meroni, Giuseppe,Minucci, Saverio,Thaler, Florian,Tortorici, Marcello,Trifiró, Paolo,Valente, Sergio,Villa, Manuela,Varasi, Mario,Mercurio, Ciro

supporting information, p. 352 - 363 (2014/11/07)

Histone demethylase KDM1A (also known as LSD1) has become an attractive therapeutic target for the treatment of cancer as well as other disorders such as viral infections. We report on the synthesis of compounds derived from the expansion of tranylcypromine as a chemical scaffold for the design of novel demethylase inhibitors. These compounds, which are substituted on the cyclopropyl core moiety, were evaluated for their ability to inhibit KDM1A in vitro as well as to function in cells by modulating the expression of Gfi-1b, a well recognized KDM1A target gene. The molecules were all found to covalently inhibit KDM1A and to become increasingly selective against human monoamine oxidases MAO A and MAO B through the introduction of bulkier substituents on the cyclopropylamine ring. Structural and biochemical analysis of selected trans isomers showed that the two stereoisomers are endowed with similar inhibitory activities against KDM1A, but form different covalent adducts with the FAD co-enzyme.

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