Comparison of Functional Properties between Native and Chemically Modified Starches from Acha (&amp;lt;i&amp;gt;Digitaria&amp;lt;/i&amp;gt; Stapf) Grains

Olu-Owolabi, Bamidele I.; Olayinka, O. O.; Adegbemile, A. A.; Adebowale, Kayode O.

doi:10.4236/fns.2014.52027

Cited by 27 publications

(20 citation statements)

References 20 publications

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“…Emeje et al, 2012 observed that Acetylated acha starch had better functional properties than the Native starch. Olu-Owolabi, Olayinka, Adegbemile, and Adebowale (2014) endeavored to compare the functional properties of Native acha starch with its chemically modified forms. He concluded amongst other findings that chemical modification increased pasting temperature and reduced setback values.…”

Section: Introductionmentioning

confidence: 99%

Effect of varying degrees of succinylation on the functional and morphological properties of starch from acha (Digitaria exilis Kippis Stapf)

Arueya

Oyewale

2015

Food Chemistry

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Section: Introductionmentioning

confidence: 99%

Effect of varying degrees of succinylation on the functional and morphological properties of starch from acha (Digitaria exilis Kippis Stapf)

Arueya

Oyewale

2015

Food Chemistry

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“…An increase in pasting temperature elucidated that the pretreatment of black rice pasta increases the crystalline region due to the reorientation of starch granules. As the crystallinity increases the potency of bonding between the molecules which makes more heat involvement in paste formation (Olu‐Owolabi, Olayinka, Adegbemile, & Adebowale, ). The peak, hold, and final viscosity of untreated pasta were 2,452, 1,635, and 2,979 cP, respectively.…”

Section: Resultsmentioning

confidence: 99%

Effect of thermal pretreatments on physical, phytochemical, and antioxidant properties of black rice pasta

Laishram

Das

2017

J Food Process Engineering

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The effect of various pretreatment methods, such as conventional, sous‐vide, and microwave, on water absorption, solubility, cooking characteristics, and phytochemical properties of black rice pasta was investigated. Water adsorption index and water solubility index of pretreated pasta sample were significantly increased with an increase in temperature or microwave radiation. The cooking yield of conventional (240.75–305.95%) and sous‐vide (252.48–354.31%) pretreated pasta showed a significant increase with increasing temperature. Whereas, in microwave pretreatment, cooking yield (304.45–255.34%) was decreased with the increase in microwave radiation. The cooking losses of pretreated pasta showed an increasing pattern with an increase in temperature or microwave radiation. The pasting properties in terms of the peak, holding, final, breakdown, and setback viscosity were decreased. The degradation of anthocyanin and phenolic contents was higher in the sous‐vide and microwave treated pasta than the conventionally treated sample. The conventional treatment also led to the highest 2,2‐diphenyl‐2‐picrylhydrazyl hydrate scavenging activity than other pretreatment methods. The study provides valuable insight to understanding and predicting the changes that occur during processing of black rice pasta. Practical applications Pasta is one of the most common foods, preferred worldwide for its usefulness, easy cooking, and good nutritional qualities. While traditional pasta is manufactured from only durum semolina, it can be developed using non‐durum ingredients with known functionalities as a functional food. In this study, black rice was used as a source of bioactive compounds in pasta. Moreover, the effect of pretreatment on functional and cooking quality of pasta indeed needs to know. This study also provides the basic information on pretreatment effect on pasta to the food industry.

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“…The esterification process was carried out as described by Lawal () and Olu‐Owolabi, Olayinka, Adegbemile, and Adebowale () with some modifications. The native starch (150 g) was suspended in 500 mL of distilled water and magnetically stirred for 20 min.…”

Section: Methodsmentioning

confidence: 99%

Modification of amaranth (Amaranthus viridis) starch, identification of functional groups, and its potentials as fat replacer

2018

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In this study, effects of oxidation, esterification, osmotic pressure, and cross‐linking modification methods on functional groups in Amaranthus viridis starch and feasibility of utilizing both native and derived starches as fat replacers were evaluated. The functional groups in native and modified starches were found to consist of OH stretch, CH stretch, CO stretch, NH bend, CH2 and CH3 bend, CO stretch, and CH bend. The results showed that oxidation, osmotic pressure, and cross‐linking increased the presence of alkenyl group in starch samples, which enhanced their characteristics as fat replacers. Moreover, modification methods affected the functional groups, which could lead to variations in performance when used as food ingredient. The ability of native and modified A. viridis starches as fat replacers could be ranked as oxidized starch > osmotic pressured starch > cross‐linked starch > native starch > esterified starch. Practical applications Amaranthus viridis grains contain a significant amount of starch. The functionality of starch in food industry could be enhanced through modifications. Modified A. viridis starches have functional group (alkenyl group), which enhances their characteristics as fat replacers. Consequently, the modified starches could be used to partially replace fat in fat rich foods such as mayonnaise and salad cream. Thus, minimizes health risks associated with consumption of fatty foods

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Comparison of Functional Properties between Native and Chemically Modified Starches from Acha (<i>Digitaria</i> Stapf) Grains

Cited by 27 publications

References 20 publications

Effect of varying degrees of succinylation on the functional and morphological properties of starch from acha (Digitaria exilis Kippis Stapf)

Effect of varying degrees of succinylation on the functional and morphological properties of starch from acha (Digitaria exilis Kippis Stapf)

Effect of thermal pretreatments on physical, phytochemical, and antioxidant properties of black rice pasta

Modification of amaranth (Amaranthus viridis) starch, identification of functional groups, and its potentials as fat replacer

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