Quantitative Studies on Structure-DPPH• Scavenging Activity Relationships of Food Phenolic Acids

Jing, Pu; Zhao, Shu-Juan; Jian, Wenjie; Bian, Qian; Dong, Ying; Pang, Jie

doi:10.3390/molecules171112910

Cited by 53 publications

(43 citation statements)

References 29 publications

(54 reference statements)

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“…These two phenolic acids showed good antioxidant activities in DPPH assay (22.71 and 35.17 μM, respectively), but antioxidant activity of their corresponding triazoles was significantly higher ( p < 0.05). Literature data confirm high radical scavenging activities of 1 f and 1 h , while phenolic acids with one hydroxyl group, such as 1 a , 1 b and 1 c show negligible antioxidant capacities . Our results showed that phenolic acids with two hydroxyl groups, such as 1 g and 1 i are better antioxidants than monohydroxy acids, but their activity is also low.…”

Section: Resultssupporting

confidence: 68%

Potent 1,2,4‐Triazole‐3‐thione Radical Scavengers Derived from Phenolic Acids: Synthesis, Electrochemistry, and Theoretical Study

et al. 2016

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Nine 1,2,4-triazole-3-thiones containing phenolic acid moiety have been synthesized and examined by scavenging of stable DPPH (2,2-diphenyl-1-picrylhydrazyl) radical, measurement of reducing capacity, cyclic voltammetry experiments and density functional theory (DFT). The differences in DPPH-radical scavenging activity of the compounds 4 a-i are affected by the sta-bility of the corresponding radicals or radical cations and possibility of delocalization of unpaired electron through benzene and triazole ring. Significantly, lower proton affinity (PA) values than bond dissociation enthalpy (BDE) indicate SPLET (sequential proton loss electron transfer) mechanism under these experimental conditions.[a] N. Ivanović, Dr.

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Section: Resultssupporting

confidence: 68%

Potent 1,2,4‐Triazole‐3‐thione Radical Scavengers Derived from Phenolic Acids: Synthesis, Electrochemistry, and Theoretical Study

et al. 2016

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“…The presence of electron donating or high electron density hydroxyl group at meta and para positions of gallic acid attributes to the high scavenging ability of gallic acid (Jing et al 2012 Fig. 1 Structure of the phenolic compounds assayed for free radical scavenging exhibited higher scavenging activity (38.9 %) than veratryl alcohol (0.38 %) due to para-hydroxy substitution.…”

Section: Resultsmentioning

confidence: 99%

Reactivity of phenolic compounds towards free radicals under in vitro conditions

2015

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The free radical scavenging activity and reducing power of 16 phenolic compounds including four hydroxycinnamic acid derivatives namely ferulic acid, caffeic acid, sinapic acid and p-coumaric acid, benzoic acid and its derivatives namely protocatechuic acid, gallic acid and vanillic acid, benzene derivatives namely vanillin, vanillyl alcohol, veratryl alcohol, veratraldehyde, pyrogallol, guaiacol and two synthetic antioxidants, butylated hydroxy anisole (BHA) and propyl gallate were evaluated using 1,1-Diphenyl-2-picrylhydrazyl radical (DPPH • ), 2,2′-Azinobis-3-ethylbenzothiazoline-6-sulfonic acid radical (ABTS +• ), Hydroxyl radical ( • OH) and Superoxide radical (O 2•-

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“…As previously reported, hydroxylation in adjacent carbons (o-diphenyl structure) enhances antioxidant activity. 54 Jing and co-workers 55 also outlined that the presence of: (i) bulky and/or electrondonating substituents on the aromatic ring, (ii) electron-donating groups at the meta position and/or hydrophobic groups at the meta-ortho position, and (iii) hydrogen bond donor/electrondonating groups at the ortho position strengthen the antioxidant activity of phenolic acids. Hydroxylation and/or methoxylation on the C ring affects the antioxidant activity of anthocyanins.…”

Section: Relationship Between Phenolics Structure and Antioxidant Capmentioning

confidence: 99%

Berry antioxidants: small fruits providing large benefits

et al. 2013

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Small berry fruits are consumed because of their attractive colour and special taste, and are considered one of the richest sources of natural antioxidants. Their consumption has been linked to the prevention of some chronic and degenerative diseases. The term 'berry fruits' encompasses the so-called 'soft fruits', primarily strawberry, currants, gooseberry, blackberry, raspberry, blueberry and cranberry. The objective of this review is to highlight the nutraceutical value of berries and to summarize the factors affecting berry fruit antioxidants. Particular attention is given to postharvest and processing operation factors that may affect fruit phytochemical content. The structure-antioxidant relationships for phenolic compounds - the main group of antioxidants in this fruit group - are presented and major areas for future research are identified.

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Quantitative Studies on Structure-DPPH• Scavenging Activity Relationships of Food Phenolic Acids

Cited by 53 publications

References 29 publications

Potent 1,2,4‐Triazole‐3‐thione Radical Scavengers Derived from Phenolic Acids: Synthesis, Electrochemistry, and Theoretical Study

Potent 1,2,4‐Triazole‐3‐thione Radical Scavengers Derived from Phenolic Acids: Synthesis, Electrochemistry, and Theoretical Study

Reactivity of phenolic compounds towards free radicals under in vitro conditions

Berry antioxidants: small fruits providing large benefits

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