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1.
J Food Sci Technol ; 56(9): 4045-4056, 2019 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-31477976

RESUMO

In this work, mint essential oil (MEO) was added into gelatin films and antifungal activity was evaluated. Five concentrations of MEO (0, 0.06, 0.13, 0.25, 0.38, 0.50% (g/g gelatin)) were incorporated into gelatin solutions. The films were prepared by casting and characterized for their barrier properties, mechanical resistance, morphology, thermal and antifungal activity. The addition of oil into the solution slightly improved water vapor barrier, increased thickness and opacity, decreased transparency and modified thermal and mechanical properties of films. With addition of oil above 0.38%, the films were effective against the growth of Botrytis cinerea and Rhizopus stolonifer, indicating an inhibitory activity. Thus, gelatin-based edible films incorporated with MEO showed to be an effective way to inhibit microbial growth on the film surface.

2.
Food Res Int ; 89(Pt 1): 549-557, 2016 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-28460950

RESUMO

Chia seed oil has a high content of α-linolenic acid (60%) and linoleic acid (20%). Use of this oil in different products is limited due to its liquid state, and the presence of insaturation is a trigger for oxidation. In this context, to facilitate the incorporation of chia oil in food products and increase its protection against oxidation, the aim of this work was to produce chia oil microparticles by spray drying using emulsions stabilized by whey protein concentrate (ζ-potential +13.4 at pH3.8) and pectin (ζ-potential -40.4 at pH3.8) through the electrostatic layer-by-layer deposition technique and emulsions prepared with only whey protein concentrate. Emulsions stabilized by whey protein concentrate and stabilized by whey protein concentrate-pectin were prepared using maltodextrin (10 DE) and modified starch (Hi-Cap® 100). They were characterized in relation to stability, droplet size, ζ-Potential and optical microscopy. The microparticles were characterized in relation to moisture content, water activity, particle size, microstructure and oxidative stability by the Rancimat method. Emulsions stabilized by whey protein concentrate-pectin with added maltodextrin 10 DE and emulsions stabilized by whey protein concentrate with added modified starch (Hi-Cap® 100) were stable after 24h. Emulsions stabilized by whey protein concentrate and by whey protein concentrate-pectin showed droplets with mean diameter ranging from 0.80 to 1.31µm, respectively and ζ-potential varying from -6.9 to -27.43mV, respectively. After spray drying, the microparticles showed an mean diameter ranging from 7.00 to 9.00µm. All samples presented high encapsulation efficiency values, above 99%. Microparticles produced with modified starch showed a smoother spherical surface than particles with maltodextrin 10 DE, which presented a wrinkled surface. All microparticles exhibited higher oxidative stability than chia oil in pure form.

3.
J Food Sci ; 73(5): C405-12, 2008 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-18576986

RESUMO

The hydrolysis of chicken breast meat by the commercial protease Alcalase 2.4L was studied to evaluate the influence of temperature (43 to 77 degrees C), enzyme:substrate ratio (0.8% to 4.2%), and pH (7.16 to 8.84) on the responses of degree of hydrolysis and protein recovery. The enzymatic hydrolysis was optimized for maximum degree of hydrolysis and protein recovery using response surface methodology. The optimum conditions determined were the following: 52.5 degrees C, 4.2% (w/w) enzyme:substrate ratio, and a pH value of 8.00. Under these conditions, a degree of hydrolysis of 31% and protein recovery of 91% were obtained. A characterization of the protein hydrolysate obtained using the optimized process conditions was carried out, evaluating the chemical composition, electrophoretic profile and amino acid composition.


Assuntos
Galinhas , Tecnologia de Alimentos/métodos , Carne/normas , Proteínas Musculares/metabolismo , Subtilisinas/metabolismo , Animais , Concentração de Íons de Hidrogênio , Hidrólise , Cinética , Carne/análise , Temperatura
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