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(E)-5-Phenyl-2-pentenoic acid, also known as (E)-Styrylacetic acid, is a chemical compound belonging to the styrylacetic acid family, with the molecular formula C11H12O2. It is characterized by its phenyl group attached to a carbon-carbon double bond, known as the styryl group, and a carboxylic acid functional group. (E)-5-Phenyl-2-pentenoic acid has been studied for its potential anti-inflammatory, analgesic, and antioxidant properties, and is commonly used in the synthesis of pharmaceuticals and other organic compounds. Careful handling is advised, as it may cause irritation to the skin, eyes, and respiratory system, and should only be used by trained professionals in a laboratory setting.

55320-96-2

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55320-96-2 Usage

Uses

Used in Pharmaceutical Synthesis:
(E)-5-Phenyl-2-pentenoic acid is used as a key intermediate in the synthesis of various pharmaceuticals and organic compounds. Its unique structure and functional groups make it a valuable building block for creating new and effective drugs.
Used in Anti-Inflammatory Applications:
(E)-5-Phenyl-2-pentenoic acid is used as an anti-inflammatory agent for its potential to reduce inflammation and alleviate pain. Its properties make it a promising candidate for the development of new treatments for conditions characterized by inflammation.
Used in Analgesic Applications:
As an analgesic, (E)-5-Phenyl-2-pentenoic acid is used to help relieve pain. Its potential effectiveness in pain management makes it a valuable compound for the development of new pain-relieving medications.
Used in Antioxidant Applications:
(E)-5-Phenyl-2-pentenoic acid is used as an antioxidant to help protect cells from damage caused by free radicals. Its antioxidant properties make it a candidate for the development of new treatments for conditions associated with oxidative stress.
Used in Drug Development for Medical Conditions:
(E)-5-Phenyl-2-pentenoic acid is used as a starting material in the development of new drugs for various medical conditions. Its potential therapeutic properties and versatile chemical structure make it a valuable compound for research and development in the pharmaceutical industry.

Check Digit Verification of cas no

The CAS Registry Mumber 55320-96-2 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,5,3,2 and 0 respectively; the second part has 2 digits, 9 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 55320-96:
(7*5)+(6*5)+(5*3)+(4*2)+(3*0)+(2*9)+(1*6)=112
112 % 10 = 2
So 55320-96-2 is a valid CAS Registry Number.

55320-96-2SDS

SAFETY DATA SHEETS

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

Version: 1.0

Creation Date: Aug 14, 2017

Revision Date: Aug 14, 2017

1.Identification

1.1 GHS Product identifier

Product name 5-phenylpent-2-enoic acid

1.2 Other means of identification

Product number -
Other names (E)-5-phenyl-penta-2-enoic acid

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:55320-96-2 SDS

55320-96-2Relevant academic research and scientific papers

Iron-catalyzed domino decarboxylation-oxidation of α,β-unsaturated carboxylic acids enabled aldehyde C-H methylation

Gong, Pei-Xue,Xu, Fangning,Cheng, Lu,Gong, Xu,Zhang, Jie,Gu, Wei-Jin,Han, Wei

supporting information, p. 5905 - 5908 (2021/06/18)

A practical and general iron-catalyzed domino decarboxylation-oxidation of α,β-unsaturated carboxylic acids enabling aldehyde C-H methylation for the synthesis of methyl ketones has been developed. This mild, operationally simple method uses ambient air as the sole oxidant and tolerates sensitive functional groups for the late-stage functionalization of complex natural-product-derived and polyfunctionalized molecules.

GPR52 Antagonist Reduces Huntingtin Levels and Ameliorates Huntington's Disease-Related Phenotypes

Wang, Congcong,Zhang, Yu-Fang,Guo, Shimeng,Zhao, Quan,Zeng, Yanping,Xie, Zhicheng,Xie, Xin,Lu, Boxun,Hu, Youhong

, p. 941 - 957 (2020/11/30)

GPR52 is an orphan G protein-coupled receptor (GPCR) that has been recently implicated as a potential drug target of Huntington's disease (HD), an incurable monogenic neurodegenerative disorder. In this research, we found that striatal knockdown of GPR52 reduces mHTT levels in adult HdhQ140 mice, validating GPR52 as an HD target. In addition, we discovered a highly potent and specific GPR52 antagonist Comp-43 with an IC50 value of 0.63 μM by a structure-activity relationship (SAR) study. Further studies showed that Comp-43 reduces mHTT levels by targeting GPR52 and promotes survival of mouse primary striatal neurons. Moreover, in vivo study showed that Comp-43 not only reduces mHTT levels but also rescues HD-related phenotypes in HdhQ140 mice. Taken together, our study confirms that inhibition of GPR52 is a promising strategy for HD therapy, and the GPR52 antagonist Comp-43 might serve as a lead compound for further investigation.

Essential structural features of (2Z,4E)-5-phenylpenta-2,4-dienoic acid for inhibition of root gravitropism

Shindo, Mitsuru,Makigawa, Saki,Matsumoto, Kenji,Iwata, Takayuki,Wasano, Naoya,Kano, Arihiro,Morita, Miyo Terao,Fujii, Yoshiharu

, (2020/02/04)

Previously, we found (2Z,4E)-5-phenylpenta-2,4-dienoic acid (ku-76) to be a selective inhibitor of root gravitropic bending of lettuce radicles at 5 μM, with no concomitant growth inhibition. Here, we describe a structure-activity relationship study of ku

One-pot chemoenzymatic reactions in water enabled by micellar encapsulation

Adams, Nicholas P.,Bushi, Jurgen,Hastings, Courtney J.,Kolb, Samuel J.

supporting information, p. 6187 - 6193 (2020/10/18)

The use of micellar conditions to enable one-pot reactions involving both transition metal and enzymatic catalysts is reported. Representative enzymatic transformations under micellar conditions are unaffected by the presence of non-ionic surfactants, including designer surfactants such as TPGS-750-M. Furthermore, the presence of enzymes has a negligible effect on transition metal catalysis under micellar conditions in water. Finally, three one-pot chemoenzymatic reactions in water are reported in which the micelle-forming surfactant TPGS-750-M is a crucial factor for reaction efficiency.

Ru-Based Catechothiolate Complexes Bearing an Unsaturated NHC Ligand: Effective Cross-Metathesis Catalysts for Synthesis of (Z)-α,β-Unsaturated Esters, Carboxylic Acids, and Primary, Secondary, and Weinreb Amides

Liu, Zhenxing,Xu, Chaofan,Del Pozo, Juan,Torker, Sebastian,Hoveyda, Amir H.

supporting information, p. 7137 - 7146 (2019/05/10)

Despite notable progress, olefin metathesis methods for preparation of (Z)-α,β-unsaturated carbonyl compounds, applicable to the synthesis of a large variety of bioactive molecules, remain scarce. Especially desirable are transformations that can be promoted by ruthenium-based catalysts, as such entities would allow direct access to carboxylic esters and amides, or acids (in contrast to molybdenum-or tungsten-based alkylidenes). Here, we detail how, based on the mechanistic insight obtained through computational and experimental studies, a readily accessible ruthenium catechothiolate complex was found that may be used to generate many α,β-unsaturated carbonyl compounds in up to 81% yield and ≥98:2 Z/E ratio. We show that through the use of a complex bearing an unsaturated N-heterocyclic carbene (NHC) ligand, for the first time, products derived from the more electron-deficient esters, acids, and Weinreb amides (vs primary or secondary amides) can be synthesized efficiently and with high stereochemical control. The importance of the new advance to synthesis of bioactive compounds is illustrated through two representative applications: An eight-step, 15% overall yield, and completely Z-selective route leading to an intermediate that may be used in synthesis of stagonolide E (vs 11 steps, 4% overall yield and 91% Z, previously), and a five-step, 25% overall yield sequence to access a precursor to dihydrocompactin (vs 13 steps and 5% overall yield, formerly).

Formation of Enol Ethers by Radical Decarboxylation of α-Alkoxy β-Phenylthio Acids

Palanivel, Ashokkumar,Mubeen, Sidra,Warner, Thomas,Ahmed, Nayeem,Clive, Derrick L. J.

, p. 12542 - 12552 (2019/10/19)

Enol ethers are formed by radical decarboxylation of α-alkoxy β-phenylthio acids via the corresponding Barton esters. The phenylthio acids were usually made by the known regioselective reaction of α,β-epoxy acids with PhSH in the presence of InCl3, followed by O-alkylation of the resulting alcohol. In one case, thiol addition to an α,β-unsaturated ethoxymethyl ester was used.

Palladium-Catalyzed Chemoselective Protodecarboxylation of Polyenoic Acids

Al-Huniti, Mohammed H.,Perez, Mark A.,Garr, Matthew K.,Croatt, Mitchell P.

supporting information, p. 7375 - 7379 (2019/01/03)

Conditions for the first palladium-catalyzed chemoselective protodecarboxylation of polyenoic acids to give the desired polyenes in good yields are presented. The reactions proceed under mild conditions using either a Pd(0) or Pd(II) catalyst and tolerate a variety of aryl and aliphatic substitutions. Unique aspects of the reaction include the requirement of phosphines, water, and a polyene adjacent to the carboxylic acid.

Synthesis and evaluation of (E)-2-(5-phenylpent-2-en-4-ynamido)cyclohex-1-ene-1-carboxylate derivatives as HCA2 receptor agonists

Bobileva, Olga,Ikaunieks, Martins,Duburs, Gunars,Mandrika, Ilona,Petrovska, Ramona,Klovins, Janis,Loza, Einars

, p. 4314 - 4329 (2017/07/22)

Novel series of compounds consisting of 2-amidocyclohex-1-ene carboxylate and phenyl parts which are connected by enyne (compounds 2a–f), but-1-yne (compounds 4a–j), and phenylethylene (compounds 5a–f) linkers as HCA2 full agonists were designed and their

Synthesis and bioactivities of novel piperazine-containing 1,5-Diphenyl-2-penten-1-one analogues from natural product lead

Xu, Gaofei,Yang, Xinling,Jiang, Biaobiao,Lei, Peng,Liu, Xili,Wang, Qingmin,Zhang, Xuebo,Ling, Yun

, p. 1849 - 1853 (2016/07/27)

A series of novel 1,5-Diphenyl-2-penten-1-one analogues (7a–h, 8a–h) with piperazine moiety have been designed and synthesized on the basis of natural product 1,5-Diphenyl-2-penten-1-one (I). All the synthesized compounds were evaluated in vitro for anti-plant pathogenic fungi activities and insecticidal activities. The results indicated that most of these analogues exhibited moderate antifungal activities and moderate to good insecticidal activities. Amongst them, the most potent 7c, 7e and 7h keep a mortality of 100% against larva of mosquito at the concentration of 1?mg/L. Initial structure–activity relationship (SAR) analysis showed that, a methyl group can influence the biological activities of these compounds significantly, the compounds with N′-unsubstituted piperazine showed much better antifungal activities and larvicidal activity against mosquito than the compounds with N′-methylated piperazine. In addition, the larvicidal activity against mosquito had sharply decline when the substituent on benzene ring was changed from 4-position to 2 or 3-position.

Chiral integrated catalysts composed of bifunctional thiourea and arylboronic acid: Asymmetric aza-Michael addition of α,β-unsaturated carboxylic acids

Hayama, Noboru,Azuma, Takumi,Kobayashi, Yusuke,Takemoto, Yoshiji

, p. 704 - 717 (2016/07/19)

The first intermolecular asymmetric Michael addition of nitrogen-nucleophiles to α,β-unsaturated carboxylic acids was achieved through a new type of arylboronic acid equipped with chiral aminothiourea. The use of BnONH2 as a nucleophile gives a range of enantioenriched β-(benzyloxy)amino acid derivatives in good yields and with high enantioselectivity (up to 90% yield, 97% enantiomeric excess (ee)). The obtained products are efficiently converted to optically active β-amino acid and 1,2-diamine derivatives.

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