Luis Chel‐Guerrero scite author profile

Chia (Salvia hispanica L.) constitutes a potential alternative raw material and ingredient in food industry applications due to its dietary fiber content. Gum can be extracted from its dietary fiber fractions for use as an additive to control viscosity, stability, texture, and consistency in food systems. The gum extracted from chia seeds was characterized to determine their quality and potential as functional food additives. The extracted chia gum contained 26.2% fat and a portion was submitted to fat extraction, producing two fractions: gum with fat (FCG) and gum partly defatted (PDCG). Proximal composition and physicochemical characterization showed these fractions to be different (P < 0.05). The PDCG had higher protein, ash, and carbohydrates content than the FCG, in addition to higher water-holding (110.5 g water/g fiber) and water-binding capacities (0.84 g water/g fiber). The FCG had greater oil-holding capacity (25.7 g oil/g fiber) and water absorption capacity (44 g water/g fiber). In dispersion trials, the gums exhibited a non-Newtonian fluid behavior, specifically shear thinning or pseudoplastic type. PDCG had more viscosity than FCG. Chia seed is an excellent natural source of gum with good physicochemical and functional qualities, and is very promising for use in food industry.

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Bioavailability of Bioactive Peptides

Campos

Chel‐Guerrero

Betancur‐Ancona

et al. 2011

Food Reviews International

186

117

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Angiotensin-I converting enzyme inhibitory and antioxidant activities of protein hydrolysates from Phaseolus lunatus and Phaseolus vulgaris seeds

Torruco‐Uco

Chel‐Guerrero

Martínez-Ayala

et al. 2009

LWT - Food Science and Technology

110

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Functional Properties of Flours and Protein Isolates from Phaseolus lunatus and Canavalia ensiformis Seeds

Chel‐Guerrero

Pérez-Flores

Betancur‐Ancona

et al. 2001

J. Agric. Food Chem.

116

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The functional properties of flours and protein isolates from the legumes Phaseolus lunatus and Canavalia ensiformis were evaluated to determine their potential practical applications. The respective protein isolates were obtained from the flours by using isoelectric precipitation, with a protein content of 71.13% for the P. lunatus isolate (PPI) and 73.75% for the C. ensiformis isolate (CPI). Nitrogen solubility was good in both acid and alkaline pHs for isolates and Canavalia flour (CF), with values as high as 80%, but not for the Phaseolus flour (PF). The flours and protein isolates had good water-holding capacities, with values between 2.65 and 3.80 g/g sample. Oil-holding capacity was highest in PPI (4.59 g/g sample) and CF (3.15 g/g sample). Under alkaline pH, the PPI foaming capacity (147%) was higher than those for CPI and CF, though the flours produced greater foam. Emulsifying activities for the PF, CF, PPI, and CPI were similar (46.78-53.84%) for pH range 6-10. Emulsion stability (ES) was superior in the CF and the CPI, where values reached 100% at pH 7 and 8. Apparent viscosity was pH-dependent.

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