Maira Rubí Segura‐Campos scite author profile

Maira Rubí Segura‐Campos

5Publications

88Citation Statements Received

89Citation Statements Given

How they've been cited

121

How they cite others

165

Affiliations

Autonomous University of Yucatán, Autonomous University of Yucatán

Publications

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Physicochemical characterization of chia (Salvia hispanica) seed oil from Yucatán, México

Segura‐Campos¹,

Ciau-Solís²,

Rosado-Rubio³

et al. 2014

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A physicochemical characterization of oil from chia seeds was carried out. Proximate composition analysis showed that fat and fiber were the principal components in the raw chia flour. Physical characterization showed that chia oil has a relative density from 0.9241, a refraction index of 1.4761 and a color with more yellow than red units. Chemical characterization showed that chia oil registered an acidity index of 2.053 mg KOH/g oil, a saponification index of 222.66 mg KOH/g oil, a content of unsaponifiable matter of 0.087%, an Iodine index of 193.45 g I/100 g oil and a peroxide index of 17.5 meq O 2 /kg oil. Chia oil showed a higher content of α and β linolenic and palmitic acids. Chia oil is the vegetable source with the highest content of essential fatty acids.

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Physicochemical and Functional Properties of Dehydrated Japanese Quail (Coturnix japonica) Egg White

Segura‐Campos¹,

Pérez-Hernández²,

Chel‐Guerrero³

et al. 2013

FNS

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Physicochemical, functional and digestibility analyses were done of dehydrated quail egg white to determine its possible practical applications. Quail egg white was dehydrated by air convection using one of two temperatures and times: M1 (65˚C, 3.5 h), M2 (65˚C, 5.0 h), M3 (70˚C, 3.5 h) and M4 (70˚C, 5.0 h). Lyophilized quail egg white was used as a standard. All four air-dried treatments had good protein levels (92.56% to 93.96%), with electrophoresis showing the predominant proteins to be lysozyme, ovalbumin and ovotransferin. Denaturation temperatures ranged from 81.16˚C to 83.85˚C and denaturation enthalpy values from 5.51 to 9.08 J/g. Treatments M1-4 had lower water-holding (0.90-2.95 g/g) and oil-holding (0.92-1.01 g/g) capacities than the lyophilized treatment (4.5 g/g, 1.95 g/g, respectively). Foaming capacity was pH-dependent in all five treatments, with the lowest values at alkaline pH and the highest (153% to 222%) at acid pH (pH 2). Foam stability was lowest at acid pH and highest at alkaline pH. Emulsifying activity in the air-dried treatments was highest at pH 8 (41%-46%). Emulsion stability was pH-dependent and highest in M3 between pH 2 and 4 (96.16% to 95.74%, respectively). In the air-dried treatments, in vitro protein digestibility was as high as 83.02% (M3).

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A study on nutritional and functional study properties of Mayan plant foods as a new proposal for type 2 diabetes prevention

2021

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Chemical and Functional Properties of Hard-to-Cook Bean (Phaseolus vulgaris) Protein Concentrate

Segura‐Campos¹,

Cruz-Salas²,

Chel‐Guerrero³

et al. 2014

FNS

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The objective of this research was to evaluate the chemical and functional properties of hard-tocook (HTC) bean (Phaseolus vulgaris) protein concentrate to determine their potential practical applications. The respective protein concentrate was obtained from the flour using isoelectric precipitation and the protein content was 73.03%. Proximate composition and in vitro digestibility were measured to evaluate the chemical properties, and nitrogen solubility, emulsifying capacity, emulsion stability, foaming capacity, foam stability and viscosity were measured to evaluate its functional properties. The proximate composition of the HTC bean (P. vulgaris) flour and protein concentrate registered values of moisture, ash, protein, fat, fiber and NFE of 8.92, 4.52, 21.71%, 4.41%, 4.11% and 65.25% for flour and of 2.68%, 2.54%, 73.03%, 2.77%, 1.31% and 20.35% for protein concentrate. The in vitro digestibility was of 76.7%. The hard-to-cook bean protein concentrate exhibited good functional properties suggesting its use as additive. This concentrate registered solubility values that are ranging from 2.5% to 71.81%. The emulsifying (EC) and foaming capacity (FC) registered values of 89% -97% and of 7% -53% at different pH levels, respectively as well as an emulsion (ES) and foaming stability (FS) pH-and time-dependent. The HTC bean (P. vulgaris) protein concentrate registered a viscosity profile dependent of shear rate. The results suggest that HTC bean (P. vulgaris) protein concentrate is a valuable food ingredient or additive.

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Bioactive Peptides as Therapeutic Adjuvants for Cancer

Quintal-Bojórquez

Segura‐Campos

2020

Nutrition and Cancer

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