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(R)-2-phenylpentanoic acid, also known as (R)-α-methylphenylacetic acid, is a chiral organic compound with the molecular formula C11H14O2. It is a derivative of phenylpentanoic acid, featuring a phenyl group (C6H5) attached to a pentanoic acid chain, with the hydroxyl group (-OH) at the second carbon position. (R)-2-phenylpentanoic acid exhibits a specific (R) configuration, which means the hydroxyl group is positioned on the right side when the molecule is oriented in a specific way. (R)-2-phenylpentanoic acid is an important intermediate in the synthesis of various pharmaceuticals and agrochemicals, such as the antidepressant drug fluoxetine (Prozac). It is typically synthesized through asymmetric catalysis or enzymatic resolution methods to ensure the desired (R)-enantiomer is selectively produced.

7782-27-6

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7782-27-6 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 7782-27-6 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 7,7,8 and 2 respectively; the second part has 2 digits, 2 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 7782-27:
(6*7)+(5*7)+(4*8)+(3*2)+(2*2)+(1*7)=126
126 % 10 = 6
So 7782-27-6 is a valid CAS Registry Number.

7782-27-6Downstream Products

7782-27-6Relevant academic research and scientific papers

Substrate Scope Evaluation of the Enantioselective Reduction of β-Alkyl-β-arylnitroalkenes by Old Yellow Enzymes 1-3 for Organic Synthesis Applications

Bertolotti, Mattia,Brenna, Elisabetta,Crotti, Michele,Gatti, Francesco G.,Monti, Daniela,Parmeggiani, Fabio,Santangelo, Sara

, p. 577 - 583 (2016/02/23)

The substrate scope of the old yellow enzyme catalyzed reduction of β-alkyl-β-arylnitroalkenes is investigated. Compounds bearing either alkyl chains of increasing length at the carbon atom in position β to the nitro group or different substituents on the aromatic ring are prepared and submitted to bioreduction, to define the synthetic potential of this enantioselective reaction in the preparation of chiral fine chemicals. The versatility of the resulting nitroalkanes as chiral building blocks is shown by reducing the nitro group into a primary amine and by converting it into a carboxylic acid moiety by Meyer reaction. An "explosion" of chiral products can be observed by combining the highly enantioselective ene-reductase-mediated reduction of nitroalkenes with the chemical versatility of the nitro group.

Entrapment of a chiral cobalt complex within silver: A novel heterogeneous catalyst for asymmetric carboxylation of benzyl bromides with CO2

Yang, Heng-Pan,Yue, Ying-Na,Sun, Qi-Long,Feng, Qiu,Wang, Huan,Lu, Jia-Xing

supporting information, p. 12216 - 12219 (2015/07/27)

A novel way to accommodate heterogeneous catalysis, CO2 fixation and asymmetric synthesis on one catalyst is reported. The [Co]@Ag composite was prepared for the first time and used for asymmetric carboxylation of benzyl bromides with CO2. All the procedures were performed under mild conditions. Moreover, the [Co]@Ag composite has terrific stability and reusability.

Enantiospecific, regioselective cross-coupling reactions of secondary allylic boronic esters

Chausset-Boissarie, Laetitia,Ghozati, Kazem,Labine, Emily,Chen, Jack L.-Y.,Aggarwal, Varinder K.,Crudden, Cathleen M.

supporting information, p. 17698 - 17701 (2014/01/17)

An original syn: The first enantioselective Suzuki-Miyaura cross-coupling of chiral, enantioenriched secondary allylic boronic esters is described (see scheme; DME=dimethoxyethane, Bpin = pinacolboryl, dba = dibenzylideneacetone). Mechanistic studies show that the reactions proceed via γ-selective transmetalation followed by reductive elimination. The reaction provides the first independent confirmation that the transmetalation of boronic esters proceeds via a syn pathway. Copyright

Directed evolution of an enantioselective lipase with broad substrate scope for hydrolysis of α-substituted esters

Engstroem, Karin,Nyhlen, Jonas,Sandstroem, Anders G.,Baeckvall, Jan-E.

supporting information; experimental part, p. 7038 - 7042 (2010/07/05)

A variant of Candida antarctica lipase A (CalA) was developed for the hydrolysis of α-substituted p-nitrophenyl esters by directed evolution. The E values of this variant for 7 different esters was 45-276, which is a large improvement compared to 2-20 for the wild type. The broad substrate scope of this enzyme variant is of synthetic use, and hydrolysis of the tested substrates proceeded with an enantiomeric excess between 95-99%. A 30-fold increase in activity was also observed for most substrates. The developed enzyme variant shows (R)-selectivity, which is reversed compared to the wild type that is (S)-selective for most substrates.

Enantiopure tert-butyl(phenyl)phosphine oxide. Chirality-recognition ability and mechanism

Ribeiro, Nigel,Saigo, Kazuhiko

experimental part, p. 2704 - 2708 (2010/04/29)

When enantiopure tert-butyl(phenyl)phosphine oxide 1 was used as a resolving agent, it showed an acceptable to good chirality-recognition ability for several kinds of racemic carboxylic acids 2. A study on a chirality-recognition mechanism based on X-ray crystallographic analyses of the diastereomeric complexes of 2 with 1 revealed that the complex crystals consisted of helical columns and that 1 was not responsible for the formation of the helical column and occupied a void between the columns; although 1 interacted with 2 via a hydrogen bond to primarily form a pair with 2, the complex crystals were mainly stabilized by the accumulation of weak interactions, such as CH/π, π/π and CH...O interactions, between 1/1, 1/2 and 2/2.

Introduction of single mutation changes arylmalonate decarboxylase to racemase

Terao, Yosuke,Miyamoto, Kenji,Ohta, Hiromichi

, p. 3600 - 3602 (2008/09/20)

The introduction of only one mutation based on the estimated reaction mechanism endowed arylmalonate decarboxylase with a racemase activity, which catalyses racemisation of α-arylpropionates. The Royal Society of Chemistry 2006.

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