Category: 103-26-4

In 2020.0 APPL ORGANOMET CHEM published article about METAL-CATALYSTS; ARYL CHLORIDES; OPTICAL SENSOR; NANOPARTICLES; SILICAS; OLEFINS; HYBRID; ACTIVATION; MECHANISM; ARYLATION in [Moradi, Razieh; Mohammadi Ziarani, Ghodsi; Mohajer, Fatemeh] Alzahra Univ, Dept Chem, Vanak Sq,POB 1993893973, Tehran, Iran; [Badiei, Alireza] Univ Tehran, Sch Chem, Coll Sci, Tehran, Iran in 2020.0, Cited 57.0. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4. Safety of Methyl 3-phenyl-2-propenoate

In the present study, the modification of a mesoporous organosilica nanocomposite SBA-15 (Santa Barbara Amorphous 15) was carried out in two steps, first through the surface functionalization of SBA-Pr-NH(2)with 2-chloroquinoline-3-carbaldehyde to form SBA-Pr-NCQ, and then through a post-modification process with palladium ions. The target nanocompound structure of SBA-Pr-NCQ-Pd was characterized by different techniques (thermogravimetric analysis, X-ray diffraction, scanning electron microscopy, Energy-dispersive X-ray spectroscopy (EDX), and Fourier transform infrared spectroscopy). The catalytic performance of the porous inorganic-organic hybrid nanocomposite (SBA-Pr-NCQ-Pd) in one of the most important carbon-carbon bond-forming processes, the Mizoroki-Heck coupling reaction of aryl halides and methacrylate in water/ethanol media, was examined. Compared to previous reports, this protocol afforded some advantages, such as high yields of products, short reaction times, catalyst stability without leaching, simple methodology, easy workup, and greener conditions. Also, the nanocatalyst can be easily separated from the reaction mixture and reused several times without a significant decrease in activity and promises economic as well as environmental benefits.

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Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

An article In silico screening of anti-inflammatory constituents with good drug-like properties from twigs of Cinnamomum cassia based on molecular docking and network pharmacology WOS:000493987800018 published article about PERMEABILITY in [Zhang, Qing; Li, Ruolan; Liu, Jia; Peng, Wei; Wu, Chunjie; Pu, Xufeng] Chengdu Univ Tradit Chinese Med, Sch Pharm, Chengdu 610075, Sichuan, Peoples R China; [Gao, Yongxiang] Chengdu Univ Tradit Chinese Med, Sch Basic Med, Chengdu 610075, Sichuan, Peoples R China; [Pu, Xufeng] Chengdu Inst Food & Drug Control, Chengdu 611137, Sichuan, Peoples R China in 2019.0, Cited 23.0. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4. Application In Synthesis of Methyl 3-phenyl-2-propenoate

Purpose: To investigate by in silico screening the anti-inflammatory constituents of Cinnamomum cassia twigs. Methods: Information on the constituents of C. cassia twigs was retrieved from the online Traditional Chinese Medicines (TCM) database and literature. Inflammation-related target proteins were identified from DrugBank, Online Mendelian Inheritance in Man (OMIM), Therapeutic Target Database (TTD), Genetic Association Database (GAD), and PharmGKB. The identified compounds were filtered by Lipinski’s rules with Discovery Studio software. The Libdock module was used to perform molecular docking; LibdockScores and default cutoff values for hydrogen bonds and van der Weals interactions were recorded. LibdockScores between the prototype ligand and target protein were set as the threshold; compounds with higher LibdockScores than threshold were regarded as active compounds. Cytoscape software was used to construct active constituent-target protein interaction networks. Results: Sixty-nine potential inflammatory constituents with good drug-like properties in C. cassia twigs were screened in silico based on molecular docking and network pharmacology analysis. JAK2, mPEGS-1, COX-2, IL-1 beta, and PPAR gamma were considered the five most important target proteins. Compounds such as methyl dihydromelilotoside, hierochin B, dihydromelilotoside, dehydrodiconiferyl alcohol, balanophonin, phenethyl (E)-3-[4-methoxyphenyl]-2-propenoate, quercetin, and luteolin each interacted with more than six of the selected target proteins. Conclusion: C. cassia twigs possess active compounds with good drug-like properties that can potentially be developed to treat inflammation with multi-components on multi-targets.

Application In Synthesis of Methyl 3-phenyl-2-propenoate. Bye, fridends, I hope you can learn more about C10H10O2, If you have any questions, you can browse other blog as well. See you lster.

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

I found the field of Chemistry; Engineering very interesting. Saw the article Direct comparison of safer or sustainable alternative dipolar aprotic solvents for use in carbon-carbon bond formation published in 2020.0. Safety of Methyl 3-phenyl-2-propenoate, Reprint Addresses Hunt, AJ (corresponding author), Khon Kaen Univ, Fac Sci, Mat Chem Res Ctr, Dept Chem, Khon Kaen 40002, Thailand.. The CAS is 103-26-4. Through research, I have a further understanding and discovery of Methyl 3-phenyl-2-propenoate

There is a lot of interest in the development of new, safer and more sustainable polar aprotic solvents due to their importance in industrial applications and significant safety issues with the most commonly used examples. One such area of application is in pharmaceutically relevant C-C coupling reactions, where polar aprotic solvents are commonly used for solubility and to stabilise reaction intermediates. Although there are now a number of excellent alternatives in the literature, to date they have not been compared in a single study. This study demonstrates the effectiveness of the green solventsN-butylpyrrolidinone (NBP), gamma-valerolactone (GVL), propylene carbonate (PC) and dihydrolevoglucosenone (Cyrene) in Heck and Baylis-Hillman reactions. Good conversions and initial rates were observed in GVL and NBP in Heck reactions. Cyrene exhibited high initial rates of reaction and high yields in the Baylis-Hillman reaction. This demonstrates Cyrene to be a promising alternative polar aprotic solvent for this reaction.

Bye, fridends, I hope you can learn more about C10H10O2, If you have any questions, you can browse other blog as well. See you lster.. Safety of Methyl 3-phenyl-2-propenoate

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

An article A Novel Discovery: Holistic Efficacy at the Special Organ Level of Pungent Flavored Compounds from Pungent Traditional Chinese Medicine WOS:000462412500296 published article about FATTY LIVER-DISEASE; HEPATIC CYTOCHROME-P450 1A1; MESSENGER-RNA EXPRESSION; POTENTIAL ANKYRIN 1; ANDROGEN RECEPTOR; DANHONG INJECTION; OXIDATIVE STRESS; GENE-EXPRESSION; CYP 1A1; PLATELET-AGGREGATION in [Chen, Zhao; Cao, Yanfeng; Zhang, Yanling; Qiao, Yanjiang] Beijing Univ Chinese Med, Sch Chinese Mat Med, Beijing 102488, Peoples R China; [Chen, Zhao; Cao, Yanfeng; Zhang, Yanling; Qiao, Yanjiang] State Adm Tradit Chinese Med, Res Ctr TCM Informat Engn, Beijing 102488, Peoples R China in 2019.0, Cited 179.0. HPLC of Formula: C10H10O2. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4

Pungent traditional Chinese medicines (TCMs) play a vital role in the clinical treatment of hepatobiliary disease, gastrointestinal diseases, cardiovascular diseases, diabetes, skin diseases and so on. Pungent TCMs have a vastness of pungent flavored (with pungent taste or smell) compounds. To elucidate the molecular mechanism of pungent flavored compounds in treating cardiovascular diseases (CVDs) and liver diseases, five pungent TCMs with the action of blood-activating and stasis-resolving (BASR) were selected. Here, an integrated systems pharmacology approach is presented for illustrating the molecular correlations between pungent flavored compounds and their holistic efficacy at the special organ level. First, we identified target proteins that are associated with pungent flavored compounds and found that these targets were functionally related to CVDs and liver diseases. Then, based on the phenotype that directly links human genes to the body parts they affect, we clustered target modules associated with pungent flavored compounds into liver and heart organs. We applied systems-based analysis to introduce a pungent flavored compound-target-pathway-organ network that clarifies mechanisms of pungent substances treating cardiovascular diseases and liver diseases by acting on the heart/liver organ. The systems pharmacology also suggests a novel systematic strategy for rational drug development from pungent TCMs in treating cardiovascular disease and associated liver diseases.

Welcome to talk about 103-26-4, If you have any questions, you can contact Chen, Z; Cao, YF; Zhang, YL; Qiao, YJ or send Email.. HPLC of Formula: C10H10O2

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

Category: esters-buliding-blocks. In 2020 BIOMED RES INT published article about ANTIFUNGAL ACTIVITY; PHENOLIC-COMPOUNDS; CANDIDA; ANTIBACTERIAL; EXTRACT; ESTERS; AMIDES in [Perez-Castillo, Yunierkis] Univ Amer, Escuela Ciencias Fis & Matemat, Quito, Ecuador; [Lima, Tamires C.] Univ Fed Sergipe, Dept Pharm, BR-49100000 Sao Cristovao, Sergipe, Brazil; [Ferreira, Alana R.; Magalhaes, Hemerson I. F.; de Sousa, Damiao P.] Univ Fed Paraiba, Dept Pharmaceut Sci, BR-58051970 Joao Pessoa, Paraiba, Brazil; [Silva, Cecilia R.; Campos, Rosana S.; Neto, Joao B. A.; Junior, Helio V. N.] Univ Fed Ceara, Sch Pharm, Dept Clin & Toxicol Anal, Lab Bioprospect & Expt Yeast, Fortaleza, Ceara, Brazil; [Cavalcanti, Bruno C.] Univ Fed Ceara, Dept Physiol & Pharmacol, Fortaleza, Ceara, Brazil in 2020, Cited 56. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4.

Over the last decade, there has been a dramatic increase in the prevalence and gravity of systemic fungal diseases. This study aimed therefore at evaluating the antifungal potential of ester derivatives of benzoic and cinnamic acids from three Candida species. The compounds were prepared via Fischer esterification, and the antifungal assay was performed by the microdilution method in 96-well microplates for determining the minimal inhibitory concentrations (MICs). The findings of the antifungal tests revealed that the analogue compound methyl ferulate, methyl o-coumarate, and methyl biphenyl-3-carboxylate displayed an interesting antifungal activity against all Candida strains tested, with MIC values of 31.25-62.5, 62.5-125, and 62.5 mu g/ml, respectively. A preliminary Structure-Activity Relationship study of benzoic and cinnamic acid derivatives has led to the recognition of some important structural requirements for antifungal activity. The results of molecular docking indicate that the presence of the enoate moiety along with hydroxyl and one methoxy substitution in the phenyl ring has a positive effect on the bioactivity of compound 7 against Candida albicans. These observations further support the hypothesis that the antifungal activity of compound 7 could be due to its binding to multiple targets, specifically to QR, TS, and ST-PK. Additional experiments are required in the future to test this hypothesis and to propose novel compounds with improved antifungal activity.

Category: esters-buliding-blocks. About Methyl 3-phenyl-2-propenoate, If you have any questions, you can contact Perez-Castillo, Y; Lima, TC; Ferreira, AR; Silva, CR; Campos, RS; Neto, JBA; Magalhaes, HIF; Cavalcanti, BC; Junior, HVN; de Sousa, DP or concate me.

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

Recommanded Product: Methyl 3-phenyl-2-propenoate. I found the field of Chemistry very interesting. Saw the article Photostable Ruthenium(II) Isocyanoborato Luminophores and Their Use in Energy Transfer and Photoredox Catalysis published in 2021, Reprint Addresses Wenger, OS (corresponding author), Univ Basel, Dept Chem, CH-4056 Basel, Switzerland.. The CAS is 103-26-4. Through research, I have a further understanding and discovery of Methyl 3-phenyl-2-propenoate.

Ruthenium(II) polypyridine complexes are among the most popular sensitizers in photocatalysis, but they face some severe limitations concerning accessible excited-state energies and photostability that could hamper future applications. In this study, the borylation of heteroleptic ruthenium(II) cyanide complexes with alpha-diimine ancillary ligands is identified as a useful concept to elevate the energies of photoactive metal-to-ligand charge-transfer (MLCT) states and to obtain unusually photorobust compounds suitable for thermodynamically challenging energy transfer catalysis as well as oxidative and reductive photoredox catalysis. B(C6F5)(3) groups attached to the CN- ligands stabilize the metal-based t(2g)-like orbitals by similar to 0.8 eV, leading to high (MLCT)-M-3 energies (up to 2.50 eV) that are more typical for cyclometalated iridium(III) complexes. Through variation of their alpha-diimine ligands, nonradiative excited-state relaxation pathways involving higher-lying metal-centered states can be controlled, and their luminescence quantum yields and MLCT lifetimes can be optimized. These combined properties make the respective isocyanoborato complexes amenable to photochemical reactions for which common ruthenium(II)-based sensitizers are unsuited, due to a lack of sufficient triplet energy or excited-state redox power. Specifically, this includes photoisomerization reactions, sensitization of nickel-catalyzed cross-couplings, pinacol couplings, and oxidative decarboxylative C-C couplings. Our work is relevant in the greater context of tailoring photoactive coordination compounds to current challenges in synthetic photochemistry and solar energy conversion.

Welcome to talk about 103-26-4, If you have any questions, you can contact Schmid, L; Kerzig, C; Prescimone, A; Wenger, OS or send Email.. Recommanded Product: Methyl 3-phenyl-2-propenoate

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

Cheung, CW; Shen, N; Wang, SP; Ullah, A; Hu, XL; Ma, JA in [Cheung, Chi Wai; Shen, Ni; Wang, Shao-Peng; Ullah, Asim; Ma, Jun-An] Tianjin Univ, Dept Chem, Tianjin Key Lab Mol Optoelect Sci, Tianjin 300072, Peoples R China; [Cheung, Chi Wai; Shen, Ni; Wang, Shao-Peng; Ullah, Asim; Ma, Jun-An] Tianjin Univ, Tianjin Collaborat Innovat Ctr Chem Sci & Engn, Tianjin 300072, Peoples R China; [Hu, Xile] Ecole Polytech Fed Lausanne, ISIC LSCI, Inst Chem Sci & Engn, Lab Inorgan Synth & Catalysis, BCH 3305, CH-1015 Lausanne, Switzerland published Manganese-mediated reductive amidation of esters with nitroarenes in 2019, Cited 53. HPLC of Formula: C10H10O2. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4.

Amides are ubiquitous molecules in nature and in synthetic chemistry. Here we report a convenient and efficient method to synthesize N-aryl amides via amidation of esters with nitroarenes. In the presence of manganese metal, this amidation proceeded smoothly without the need for additional catalysts or ligands. Various esters and nitroarenes are suitable substrates to afford a wide range of N-aryl amides, including bio-active molecules and intermediates to drug molecules.

HPLC of Formula: C10H10O2. About Methyl 3-phenyl-2-propenoate, If you have any questions, you can contact Cheung, CW; Shen, N; Wang, SP; Ullah, A; Hu, XL; Ma, JA or concate me.

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

SDS of cas: 103-26-4. In 2019.0 SCI REP-UK published article about ANTARCTICA-LIPASE-B; DIRECTED EVOLUTION; CINNAMIC ACID; WEB SERVER; CONFORMATIONAL DYNAMICS; SYNTHETIC ACTIVITY; ENZYME; RESIDUE; NETWORK; CYTOSCAPE in [de los Santos, Yossef Lopez; Chew-Fajardo, Ying Lian; Brault, Guillaume; Doucet, Nicolas] Univ Quebec, Inst Natl Rech Sci, Ctr Armand Frappier Sante Biotechnol, 531 Blvd Prairies, Laval, PQ H7V 1B7, Canada; [Doucet, Nicolas] Univ Laval, Quebec Network Res Prot Funct Engn & Applicat, PROTEO, 1045 Ave Med, Quebec City, PQ G1V 0A6, Canada in 2019.0, Cited 76.0. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4.

A key event in the directed evolution of enzymes is the systematic use of mutagenesis and selection, a process that can give rise to mutant libraries containing millions of protein variants. To this day, the functional analysis and identification of active variants among such high numbers of mutational possibilities is not a trivial task. Here, we describe a combinatorial semi-rational approach to partly overcome this challenge and help design smaller and smarter mutant libraries. By adapting a liquid medium transesterification assay in organic solvent conditions with a combination of virtual docking, iterative saturation mutagenesis, and residue interaction network (RIN) analysis, we engineered lipase B from P. antarctica (CalB) to improve enzyme recognition and activity against the bulky aromatic substrates and flavoring agents methyl cinnamate and methyl salicylate. Substrate-imprinted docking was used to target active-site positions involved in enzyme-substrate and enzyme-product complexes, in addition to identifying ‘hot spots’ most likely to yield active variants. This iterative semi-rational design strategy allowed selection of CalB variants exhibiting increased activity in just two rounds of site-saturation mutagenesis. Beneficial replacements were observed by screening only 0.308% of the theoretical library size, illustrating how semi-rational approaches with targeted diversity can quickly facilitate the discovery of improved activity variants relevant to a number of biotechnological applications.

Bye, fridends, I hope you can learn more about C10H10O2, If you have any questions, you can browse other blog as well. See you lster.. SDS of cas: 103-26-4

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

Application In Synthesis of Methyl 3-phenyl-2-propenoate. I found the field of Chemistry very interesting. Saw the article Palladium catalyst immobilized on functionalized microporous organic polymers for C-C coupling reactions published in 2019.0, Reprint Addresses Xiang, DX; Ouyang, YJ (corresponding author), Huaihua Univ, Inst Organ Synth, Hunan Engn Lab Preparat Technol Polyvinyl Alcohol, Huaihua 418000, Peoples R China.. The CAS is 103-26-4. Through research, I have a further understanding and discovery of Methyl 3-phenyl-2-propenoate.

Two microporous organic polymer immobilized palladium (MOP-Pd) catalysts were prepared from benzene and 1,10-phenanthroline by Scholl coupling reaction and Friedel-Crafts reaction, respectively. The structure and composition of the catalyst were characterized by FT-IR, TGA, N-2 sorption, SEM, TEM, ICP-AES and XPS. MOP-Pd catalysts were found to possess high specific surface areas, large pore volume and low skeletal bone density. Moreover, the immobilized catalyst also had advantages, such as readily available raw materials, chemical and thermal stability, and low synthetic cost. The Pd catalyst is an effective heterogeneous catalyst for carbon-carbon (C-C) coupling reactions, such as the Heck reaction and Suzuki-Miyaura reaction, affording good to high yields. In these reactions, the catalyst was easily recovered and reused five times without significant activity loss.

Application In Synthesis of Methyl 3-phenyl-2-propenoate. About Methyl 3-phenyl-2-propenoate, If you have any questions, you can contact Xu, W; Liu, CJ; Xiang, DX; Luo, QL; Shu, Y; Lin, HW; Hu, YJ; Zhang, ZX; Ouyang, YJ or concate me.

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics

An article Regioselective Radical Borylation of alpha,beta-Unsaturated Esters and Related Compounds by Visible Light Irradiation with an Organic Photocatalyst WOS:000661126700051 published article about INSERTION in [Li, Guosong; Huang, Guanwang; Sun, Ruixia; Dai, Wen] Chinese Acad Sci, Dalian Inst Chem Phys, Dalian 116023, Peoples R China; [Curran, Dennis P.] Univ Pittsburgh, Dept Chem, Pittsburgh, PA 15208 USA in 2021.0, Cited 28.0. SDS of cas: 103-26-4. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4

Radical hydroboration reactions have only recently been reported and are still rare. Here we describe a photoredox radical hydroboration of alpha,beta-unsaturated esters, amides, ketones, and nitriles with NHC-boranes that uses only an organocatalyst and visible light. The conditions are mild, the substrate scope is broad, and the alpha/beta regioselectivity is high. The reaction requires only the organocatalyst; there is no costly metal, and there are no other additives (base, cocatalyst, initiator).

Welcome to talk about 103-26-4, If you have any questions, you can contact Li, GS; Huang, GW; Sun, RX; Curran, DP; Dai, W or send Email.. SDS of cas: 103-26-4

Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics