scholarly journals Interactions between Phenolic Acids, Proteins, and Carbohydrates—Influence on Dough and Bread Properties

Foods ◽  
2021 ◽  
Vol 10 (11) ◽  
pp. 2798
Author(s):  
Simone Schefer ◽  
Marie Oest ◽  
Sascha Rohn
Keyword(s):  
Phenolic Compounds ◽  
Ferulic Acid ◽  
Phenolic Compound ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Food Science ◽  
Cereal Products ◽  
Rye Bread ◽  
Ternary Interactions ◽  
Bread Properties

The understanding of interactions between proteins, carbohydrates, and phenolic compounds is becoming increasingly important in food science, as these interactions might significantly affect the functionality of foods. So far, research has focused predominantly on protein–phenolic or carbohydrate–phenolic interactions, separately, but these components might also form other combinations. In plant-based foods, all three components are highly abundant; phenolic acids are the most important phenolic compound subclass. However, their interactions and influences are not yet fully understood. Especially in cereal products, such as bread, being a nutritional basic in human nutrition, interactions of the mentioned compounds are possible and their characterization seems to be a worthwhile target, as the functionality of each of the components might be affected. This review presents the basics of such interactions, with special emphasis on ferulic acid, as the most abundant phenolic acid in nature, and tries to illustrate the possibility of ternary interactions with regard to dough and bread properties. One of the phenomena assigned to such interactions is so-called dry-baking, which is very often observed in rye bread.

The mechanism of iron uptake in Bacillus subtilis

1970 ◽  
Vol 16 (12) ◽  
pp. 1285-1291 ◽  
Author(s):  
W. J. Peters ◽  
R. A. J. Warren
Keyword(s):  
Bacillus Subtilis ◽  
Phenolic Compounds ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Iron Uptake ◽  
Hydroxamic Acids ◽  
Acid Complex ◽  
Iron Deficient ◽  
Active Transport System ◽  
Energy Dependent

A variety of phenolic compounds and hydroxamic acids reduced or prevented phenolic acid and coproporphyrin accumulation by iron-deficient cultures of Bacillus subtilis, but only if they were added to cultures with levels of iron which alone did not prevent accumulation. The compounds also increased iron uptake by iron-deficient cultures and norma) cultures. When radioactive catechol or 2,3-dihydroxybenzoic acid was used to increase iron uptake by iron-deficient cells, only very low levels of radioactivity remained associated with the cells. It is suggested that B. subtilis produces phenolic acids to solubilize iron; that other phenolic compounds or hydroxamic acids may substitute for the phenolic acids produced by B. subtilis; that the iron: phenolic acid complex does not enter the cell; and that the iron is removed from the complex at the cell surface and taken into the cell by an energy-dependent active transport system.

scholarly journals The effects of plant density and irrigation on phenolic content in cauliflower 

2017 ◽  
Vol 44 (No. 4) ◽  
pp. 178-185 ◽  
Author(s):  
Alina Kałużewicz ◽  
Jolanta Lisiecka ◽  
Monika Gąsecka ◽  
Włodzimierz Krzesiński ◽  
Tomasz Spiżewski ◽  
...  
Keyword(s):  
Phenolic Compounds ◽  
Ferulic Acid ◽  
Gallic Acid ◽  
Caffeic Acid ◽  
Phenolic Acids ◽  
Plant Density ◽  
Phenolic Content ◽  
Sinapic Acid ◽  
Dry Weight ◽  
Coumaric Acid

This study was conducted to study the influence of plant density and irrigation on the content of phenolic compounds, i.e., phenolic acids and flavonols in cv. ‘Sevilla’ cauliflower curds. Levels of phenolic acids and flavonols were in the range of 3.0–6.2 mg and 25.4–87.8 mg/100 g of dry weight, respectively, depending on plant density and irrigation. Of the phenolic acids, caffeic acid was detected in the highest amount, followed by p-coumaric acid, sinapic acid, gallic acid, and ferulic acid. Of the two flavonols detected, the levels of quercetin were higher than those of kaempferol. The content of the detected phenolic acids (with the exception of ferulic acid) and both flavonols increased with increasing plant density. Furthermore, the concentration of phenolic compounds (with the exception of ferulic acid) was significantly higher under irrigation.

scholarly journals Phenolic acid content and in vitro antioxidant capacity of einkorn water biscuits as affected by baking time

2020 ◽  
Author(s):  
Juan Edgar Santa Cruz Olivos ◽  
Ivano De Noni ◽  
Alyssa Hidalgo ◽  
Andrea Brandolini ◽  
Volkan Arif Yilmaz ◽  
...  
Keyword(s):  
Antioxidant Capacity ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Acid Content ◽  
Antioxidant Compounds ◽  
Unknown Compound ◽  
Cereal Products ◽  
Heat Damage ◽  
Conjugated Compounds

AbstractAim of this research was to study the evolution of heat damage, phenolic acid content and in vitro antioxidant capacity of whole meal einkorn water biscuits baked at 205 °C for increasing times (10 min steps) from 25 to 75 min. The heat damage was gauged by determining furosine, hydroxymethylfurfural (HMF), furfural and glucosylisomaltol (GLI) contents. Furosine increased up to 50 min baking, when HMF started to form; furfural augmented only after 65 min treatment, whereas GLI did not change. An unknown compound, apparently related to the severity of the heat load, aroses through the aldolic condensation of HMF with the acetone used for the extraction of phenolic acids; hence the use of acetone-based solvents in thermally processed cereal products should be avoided. The conjugated phenolic acids ferulic, vanillic, syringic, p-coumaric, p-hydroxybenzoic and syringaldehyde and the bound phenolic acids ferulic, p-coumaric, syringic, and p-hydroxybenzoic were identified in water biscuits. The stronger heating treatments led to an increase of the soluble conjugated compounds, but did not influence the bound fraction. The in vitro antioxidant capacity of water biscuits augmented significantly as baking time increased, likely for the formation of antioxidant compounds as a consequence of heat damage.

scholarly journals Variation of Phenolic Compounds and Antioxidant Capacities in Different Organs of Lilium pumilum

2018 ◽  
Vol 13 (6) ◽  
pp. 1934578X1801300 ◽  
Author(s):  
Zhen-Xu Liang ◽  
Jin-Zheng Zhang ◽  
Mei-Yu Sun ◽  
Yan-Long Zhang ◽  
Xu-Hong Zhang ◽  
...  
Keyword(s):  
Salicylic Acid ◽  
Phenolic Compounds ◽  
Experimental Evidence ◽  
Phenolic Compound ◽  
Plant Species ◽  
Phenolic Acid ◽  
Flower Bud ◽  
Edible Plant ◽  
Antioxidant Capacities

Lilium pumilum DC has been used as an important medicinal and edible plant species in China. To provide sufficient experimental evidence for further utilization of wild L. pumilum, 12 organs were evaluated for phenolic compounds and antioxidant capacities. The results showed that (-)-epicatechin was the most abundant phenolic compound, and salicylic acid as the most abundant phenolic acid. The leaf, flower bud, petal and upper stem had higher phenolic compound contents and stronger antioxidant capacities.

scholarly journals Genetic Determinants of Hydroxycinnamic Acid Metabolism in Heterofermentative Lactobacilli

2019 ◽  
Vol 86 (5) ◽  
Author(s):  
Gautam Gaur ◽  
Jee-Hwan Oh ◽  
Pasquale Filannino ◽  
Marco Gobbetti ◽  
Jan-Peter van Pijkeren ◽  
...  
Keyword(s):  
Phenolic Compounds ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Acid Metabolism ◽  
Hydroxycinnamic Acid ◽  
Hydroxycinnamic Acids ◽  
Comparative Genomic ◽  
Plant Metabolites ◽  
Content Type ◽  
Genomic Analyses

ABSTRACT Phenolic acids are among the most abundant phenolic compounds in edible parts of plants. Lactic acid bacteria (LAB) metabolize phenolic acids, but the enzyme responsible for reducing hydroxycinnamic acids to phenylpropionic acids (HcrB) was only recently characterized in Lactobacillus plantarum. In this study, heterofermentative LAB species were screened for their hydroxycinnamic acid metabolism. Data on strain-specific metabolism in combination with comparative genomic analyses identified homologs of HcrB as putative phenolic acid reductases. Par1 and HcrF both encode putative multidomain proteins with 25% and 63% amino acid identity to HcrB, respectively. Of these genes, par1 in L. rossiae and hcrF in L. fermentum were overexpressed in response to hydroxycinnamic acids. The deletion of par1 in L. rossiae led to the loss of phenolic acid metabolism. The strain-specific metabolism of phenolic acids was congruent with the genotype of lactobacilli; however, phenolic acid reductases were not identified in strains of Weissella cibaria that reduced hydroxycinnamic acids to phenylpropionic acids. Phylogenetic analysis of major genes involved in hydroxycinnamic acid metabolism in strains of the genus Lactobacillus revealed that Par1 was found to be the most widely distributed phenolic acid reductase, while HcrB was the least abundant, present in less than 9% of Lactobacillus spp. In conclusion, this study increased the knowledge on the genetic determinants of hydroxycinnamic acid metabolism, explaining the species- and strain-specific metabolic variations in lactobacilli and providing evidence of additional enzymes involved in hydroxycinnamic acid metabolism of lactobacilli. IMPORTANCE The metabolism of secondary plant metabolites, including phenolic compounds, by food-fermenting lactobacilli is a significant contributor to the safety, quality, and nutritional quality of fermented foods. The enzymes mediating hydrolysis, reduction, and decarboxylation of phenolic acid esters and phenolic acids in lactobacilli, however, are not fully characterized. The genomic analyses presented here provide evidence for three novel putative phenolic acid reductases. Matching comparative genomic analyses with phenotypic analysis and quantification of gene expression indicates that two of the three putative phenolic acid reductases, Par1 and HcrF, are involved in reduction of hydroxycinnamic acids to phenylpropionic acids; however, the activity of Par2 may be unrelated to phenolic acids and recognizes other secondary plant metabolites. These findings expand our knowledge on the metabolic potential of lactobacilli and facilitate future studies on activity and substrate specificity of enzymes involved in metabolism of phenolic compounds.

Das Vorkommen von Glucosaminestern der Hydroxy-zimtsäuren in Gewebekulturen von Nicotiana tabacum

1965 ◽  
Vol 20 (12) ◽  
pp. 1297-1301 ◽  
Author(s):  
L. Bergmann ◽  
W. Thies ◽  
K. Erdelsky
Keyword(s):  
Phenolic Compounds ◽  
Nicotiana Tabacum ◽  
Ferulic Acid ◽  
Spectral Data ◽  
Phenolic Acid ◽  
Hydroxycinnamic Acids ◽  
Tissue Cultures ◽  
Acid Esters

Tissue cultures of Nicotiana tabacum var. “Samsun” contain an array of phenolic compounds. Beside the known glucose and quinyl esters of the hydroxycinnamic acids three hitherto unreported phenolic acid esters were isolated from tobacco tissue cultures. The analytical and spectral data presented in this paper lead to the conclusion that these compounds are glucosamine esters of p-coumaric, caffeic, and ferulic acid.

scholarly journals Research of phenolic compound of a horsetail wood (Equisetum sylvaticum L.)

2011 ◽  
Vol 10 (5) ◽  
pp. 25-28 ◽  
Author(s):  
R. A. Bondarchuk ◽  
N. E. Kolomiets
Keyword(s):  
Phenolic Compounds ◽  
Phenolic Compound ◽  
Phenolic Acids ◽  
Spectrophotometric Method ◽  
Quantitative Estimation ◽  
Qualitative Structure

The results of research of phenolic compounds in an elevated part of a horsetail wood, growing in Tomsk and Kirov Regions are presented. The quantitative estimation of flavonoids and phenolic acidsspent of spectrophotometric method. Qualitative structure of phenolic compoundsstudied by chromatography. It is established that the Siberian samples have more various structure flavonoids and phenolic acids. Nine constant substances for samples of a horsetail wood in independence of a growth place are defined.

scholarly journals Phenolic acids in kernels of different coloured-grain wheat genotypes

2020 ◽  
Vol 66 (No. 2) ◽  
pp. 57-64 ◽  
Author(s):  
Luboš Paznocht ◽  
Zora Kotíková ◽  
Barbora Burešová ◽  
Jaromír Lachman ◽  
Petr Martinek
Keyword(s):  
Ferulic Acid ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Acid Content ◽  
High Performance ◽  
Sinapic Acid ◽  
Triticum Aestivum L ◽  
Total Phenolic ◽  
Array Detector ◽  
The Individual

The content of free, conjugated and bound phenolic acids in 12 wheat (Triticum aestivum L.) genotypes of 4 different grain colours (standard red, yellow endosperm, purple pericarp and blue aleurone) from 2-year field trial was analysed in the present study. Significant increase (8%) in the total phenolic acid content was observed in the dryer year 2017. Five phenolic acids (ferulic, sinapic, p-coumaric, vanillic and 4-hydroxybenzoic) and cis-isomers of ferulic and sinapic acid were determined by HPLC-DAD (high-performance liquid chromatography with a diode-array detector) in grain samples. The total phenolic acid content of coloured wheat groups varied: blue aleurone > purple pericarp > yellow endosperm > red colour (798 > 702 > 693 > 599 µg/g). The fraction of bound phenolic acids was the major contributor to the total phenolic acid content (91.7%) with ferulic acid predominating (85.2%). Conjugated phenolic acids accounted for 7.9% of the total with sinapic and ferulic acid predominating (47.6% and 19.9%). The composition of individual phenolic acids was similar within these two fractions. The remaining 0.4% was represented by the fraction of free phenolic acids in which the phenolic acid profile varied among the individual coloured groups. Ferulic acid prevailed in red and yellow wheats, vanillic in blue and p-coumaric in purple wheats.  

scholarly journals Content of Phenolic Compounds and Organic Acids in the Flowers of Selected Tulipa gesneriana Cultivars

Molecules ◽  
2020 ◽  
Vol 25 (23) ◽  
pp. 5627
Author(s):  
Agnieszka Krzymińska ◽  
Monika Gąsecka ◽  
Zuzanna Magdziak
Keyword(s):  
Phenolic Compounds ◽  
Organic Acids ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Phenolic Content ◽  
Total Phenolic ◽  
Phenolic Profile ◽  
Tulipa Gesneriana ◽  
The Mean

The study focused on the determination of phenolic acids, flavonoids and organic acids in five tulip cultivars ‘Barcelona’, ‘Columbus’, ‘Strong Gold’, ‘Super Parrot’ and ‘Tropicana’. The cultivars grown in field and in a greenhouse were exposed after cutting to different times of storage (0, 3 and 6 days). The phenolic profile contained 4-hydroxybenzoic, 2,5-dihydroxybenzoic, gallic, vanillic, syringic, salicylic, protocatechuic, trans-cinnamic, p-coumaric, caffeic, ferulic, chlorogenic and sinapic acids, as well as quercetin, rutin, luteonin, catechin and vitexin. The mean phenolic acid content was in the following order: ‘Columbus’ and ‘Tropicana’ > ’Barcelona’ > ’Strong Gold’ > ’Super Parrot’, while the levels of flavonoids were as follows: ‘Strong Gold’ > ’Barcelona’ > ’Tropicana’ > ’Columbus’ > ’Super Parrot’. The highest content of phenolic acids was confirmed for Columbus and Tropicana, while the lowest was for Super Parrot. However total phenolic content was very similar, observed between the place of cultivation, time of storage and cultivars. Malonic, succinic, acetic and citric acids were the major organic acid components in tulip petals. More organic acids (except malonic) were accumulated in tulip petals from fields than those from the greenhouse, while changes during storage were strictly correlated with cultivars.

scholarly journals Accumulation of phenylpropanoids in green and red pepper fruits of semi-hot cultivars Capsicum annuum L.

2012 ◽  
Vol 63 (2) ◽  
pp. 149-154 ◽  
Author(s):  
Małgorzata Materska ◽  
Irena Perucka
Keyword(s):  
Chemical Composition ◽  
Phenolic Compounds ◽  
Capsicum Annuum ◽  
Phenolic Acids ◽  
Phenolic Acid ◽  
Sinapic Acid ◽  
Hplc Method ◽  
Hot Pepper ◽  
Flavonoid Fraction ◽  
Derivatives Of

The aim of the present work was to determine differences in <i>C</i> and <i>O</i> glycosides of flavonoids, derivatives of phenolic acids, as well as capsaicinoid content in two semi-hot pepper cultivars, cv. Tornado and Tajfun. Fruits were harvested at the green and red maturity stages. Flavonoid and capsaicinoid fractions were isolated on Sep-Pak C18 cartridges with 40% and 70% methanol-water solutions, respectively. The chemical composition of both fractions was determined by HPLC method using standards of phenolic compounds obtained in the earlier work and the capsaicin standard. The flavonoid fraction contained glucose esters of phenolic acid, mainly ferulic and sinapic acid, as well as derivatives of flavonoids, quercetin, luteolin and apigenin, which occurred as <i>O</i>- and <i>C</i>- glycosides with glucose, rhamnose, and apiose. The capsaicinoid fraction contained mainly capsaicin and dihydrocapsaicin. It was found that in green fruits flavonoid <i>O</i>-glycosides were the predominant phenolics, while in red ones derivatives of phenolic acids. A higher loss of <i>O</i>-glycosides of flavonoids than of <i>C</i>-glycosides was observed during the maturation of the fruit of semi-hot pepper cultivars.

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