Technologies applied to sorghum (Sorghum bicolor L. Moench): changes in phenolic compounds and antioxidant capacity

Salazar‐López, Norma Julieta; González‐Aguilar, Gustavo A.; Rouzaud-Sández, Ofelia; Robles-Sánchez, Maribel

doi:10.1590/fst.16017

Cited by 42 publications

(25 citation statements)

References 84 publications

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Section: Resultsmentioning

confidence: 99%

“…On the other hand, a direct correlation between GABA and CA (r = 0.5029), and pCA (r = 0.6242) was found. In this sense, phenolic acids and GABA are secondary metabolites which act in stress conditions in plants (Boonstra et al, 2015;Salazar-López, González-Aguilar, Rouzaud-Sández, & Robles-Sánchez, 2018 there is an indirect correlation with color. Dicko et al (2005) reported that after germination of sorghum varieties, the correlation between antioxidant activity and phenolics was weaker than that for native grains, due to during germination there is a synthesis of other antioxidant compounds like vitamin C, antioxidant peptides, and free amino acids.…”

Section: Bio-functional Propertiesmentioning

confidence: 99%

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Aptitude of sorghum ( Sorghum bicolor (L) Moench) hybrids for brewery or bio‐functional malted beverages

Garzón

Drago

2018

J Food Biochem

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The potential of twenty‐four hybrids of white (WS) and red sorghum (RS) to produce beer or bio‐functional malted beverages was studied. Brewery aptitude was evaluated through diastatic power (DP), β‐amylase activity, hot water extract (HWE), and Kolbach index using sorghum malted at 30°C; while bio‐functional potential was evaluated through GABA, free amino acids (FAA) content, phenolics, and antioxidant capacity of sorghum malted at 25°C. Only eight hybrids showed DP and β‐amylase activity appropriate to brewery industry (≥22°DP/g d.b., and ≥60 UBetamyl/g d.b., respectively). White sorghum hybrid presented better potential for brewing. Levels of GABA were higher for malted RS (33.0–60.6 mg/100 g d.b.) than for WS (18.4–48.1 mg/100 g d.b.). GABA content was predicted taking into account the protein content, color, and ether extract of malted hybrids. Red sorghum hybrid presented better potential for bio‐functional beverages, and such aptitude could be predicted from composition. Practical applications Selecting sorghum hybrids for a particular food is crucial to obtain a product with high quality. There are numerous available sorghum hybrids in the market, and the prediction of the best ones for making functional beverages trough simply equations taking into account chemical composition could be a solution of time and resources for the food industry. On the other hand, we checked the best hybrids in regards to its malting potential in a simple manner. This research established white sorghum hybrids were the best raw materials to produce higher enzymatic activity of malted products for sorghum brewery industry, and red sorghum hybrids were the best ones for bio‐functional beverages.

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Section: Resultsmentioning

confidence: 99%

Section: Bio-functional Propertiesmentioning

confidence: 99%

Aptitude of sorghum ( Sorghum bicolor (L) Moench) hybrids for brewery or bio‐functional malted beverages

Garzón

Drago

2018

J Food Biochem

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“…65 Three poorly known compounds were identified in the present work: 1-O-dihydrocaffeoylglycerol (m/z 255), 1,3-O-dicaffeoyglycerol (m/z 415) and 1,3-O-caffeoyldihydrocaffeoylglycerol (m/z 417), all of which belong to the class of the phenylpropane glycerides, which are glycerol esters of phenolic acids. These compounds were mentioned as being one of the sources of phenolic acids in sorghum grains in the work of Salazar-Lopez et al, 46 and identified in the studies of Kang et al 63 and Wu et al 66 with sorghum grains.…”

Section: (−)Ps-ms Fingerprintsmentioning

confidence: 98%

“…This may be related to the presence of tannin in this variety and to the fact that most of the phenolic compounds are present in the outer layers of the grain, such as the pigmented forehead, this region being only present in SC 319. 46…”

Section: Ps-ms Chemical Profilementioning

confidence: 99%

Study of Thermoplastic Extrusion and Its Impact on the Chemical and Nutritional Characteristics and Two Sorghum Genotypes SC 319 and BRS 332

Campelo¹,

Henriques²,

Simeone³

et al. 2020

J. Braz. Chem. Soc.

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The use of sorghum in human nutrition has been expanded due to its nutritional composition and its functional potential. Extrusion has been used to improve the quality of sorghum. The aim of this work was to assess the effect of extrusion in the nutritional composition, phenolic compounds content of two sorghum, and characterize the profile of chemical constituents by paper spray mass spectrometry (PS-MS). Extrusion increased the carbohydrate and fiber contents and reduced moisture, lipids and ashes, and enabling a higher degree of liberation of phenolic compounds and antioxidant activity. The fingerprint obtained in both ionization modes had been influenced by extrusion, allowing for a greater compounds' identification on the extruded samples. The analysis of sorghum samples' main components made distinguishing of the main constituents possible, as well as highlighted the extrusion effect and the influence of the genotypes. This study demonstrated that extrusion enabling a higher liberation of phenolic compounds, which were identified by the PS-MS technique.

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“…Various pretreatment technologies have been developed to reduce polyphenols content in cereals. Salazar‐Lopez, Gonzalez‐Aguilar, Rouzaud‐Sandez, and Robles‐Sanchez () reported on the most recent techniques used in sorghum and their phenolic compounds and antioxidant capacity. Some of these methods include mechanical procedures such as milling, decortication, and extrusion; physical methods, for example steaming, radiation, and sonication; biological methods or bioprocessing such as microbial and enzymatic degradation.…”

Section: Introductionmentioning

confidence: 99%

Effect of nixtamalization treatment of three varieties of grain sorghum on the reduction of total phenolics and their subsequent enzymatic hydrolysis

Gonzalez

Morawicki

Mauromoustakos

2019

J Food Process Preserv

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This work assessed the effect of lime treatment (nixtamalization) on the reduction of tannins in grain sorghum and on the subsequent enzymatic hydrolysis of the limetreated flours. A split-plot experimental design for the lime treatment and a factorial experimental design, with variety of sorghum and lime concentration as factors, were used. Sorghum flours were prepared by cooking sorghum grains (low, medium, and high tannins) in lime solutions (0.0%, 0.3%, and 0.5%) for 35 min at 87°C, steeping for 8 hr, washing, drying, and sieving. Lime treatment reduced the tannins content by 82%, 67%, and 53% with 0.3% lime and by 79%, 68%, and 49% with 0.5% lime treatments for high, medium, and low tannins varieties. Hydrolysis with α-amylase and amyloglucosidase showed that sorghum variety, lime concentration, and their interaction were highly significant in the production of fermentable sugars (p < 0.001). Conversion efficiency of starch into fermentable sugars increased with rising concentrations of lime. Practical applicationsThe present study demonstrated that lime-pretreatment (nixtamalization) of sorghum grain effectively reduce the polyphenols content in grain sorghum, particularly condensed tannins. Subsequently, the reduction of polyphenols improves the conversion of starch into fermentable sugars, which is highly beneficial in industrial fermentations.

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Technologies applied to sorghum (Sorghum bicolor L. Moench): changes in phenolic compounds and antioxidant capacity

Cited by 42 publications

References 84 publications

Aptitude of sorghum ( Sorghum bicolor (L) Moench) hybrids for brewery or bio‐functional malted beverages

Aptitude of sorghum ( Sorghum bicolor (L) Moench) hybrids for brewery or bio‐functional malted beverages

Study of Thermoplastic Extrusion and Its Impact on the Chemical and Nutritional Characteristics and Two Sorghum Genotypes SC 319 and BRS 332

Effect of nixtamalization treatment of three varieties of grain sorghum on the reduction of total phenolics and their subsequent enzymatic hydrolysis

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