O. O. Olayinka scite author profile

Starch isolated from white sorghum was subjected to chemical modifications like oxidation, acetylation and acid thinning. Proximate composition of these, such as crude protein, crude fat, moisture content and ash content were studied. Wide angle X-ray diffractograms showed typical 'A' pattern characteristic of cereal starches, but significant differences were observed between the X-ray pattern of native and modified starches. Scanning electron microscopy revealed round and polygonal shapes for the starch granules with heterogeneous sizes and chemical modifications altered the starch granules morphology. Swelling power and solubility increased with increasing in temperature. Swelling power increased upon acetylation but decreased during acid thinning and oxidation. Solubility increased in these three modifications compared to the native starch.

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Effect of succinylation on the physicochemical, rheological, thermal and retrogradation properties of red and white sorghum starches

Olayinka

Olu-Owolabi

Adebowale

2011

Food Hydrocolloids

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Effect of chemical modifications on thermal, rheological and morphological properties of yellow sorghum starch

Olayinka

Olu-Owolabi

et al. 2015

J Food Sci Technol

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Starch isolated from yellow sorghum grains was subjected to chemical modifications like acetylation, hydroxypropylation and benzylation. Proximate compositions of these, such as crude protein, crude fat, moisture content and ash content were determined. The effects of modifications on thermal, rheological and morphological properties of yellow sorghum starch were investigated. Differential Scanning Calorimetry studies showed that the gelatinization temperature and enthalpy of modified yellow sorghum starches decreased when compared to that of native starch. The results showed that peak, hot pasting, final, breakdown and setback viscosities were significantly reduced except in hydroxypropylated starch that showed increase in breakdown and setback viscosities. Scanning electron microscopy pictures showed that the modified starch granules had disrupted surfaces compared to native starch granules; hydroxypropylated starch showed the presence of slight fragmentation and a distinct groove in their central core region. The extent of granule disruption was observed to be higher for hydroxypropylated starch than other modified starches.

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

Olu-Owolabi¹,

Olayinka²,

Adegbemile³

et al. 2014

FNS

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Acha grain (Digitariaexilis) starch was isolated and subjected to chemical modifications by acetylation, benzylation, succinylation, carboxymethylation and acid-thining. Functional properties (swelling, solubility, gelation, oil and water absorption capacities, alkaline water retention) and rheological properties of the native and modified starches were determined. Swelling power and solubility of the starch samples increased with increase in temperature. Swelling power and solubility were pH dependent, with maximum values obtained at pH 12 in both native and modified starches. Increasing degree of alkalinity increased both solubility and swelling capacity. Water absorption capacities of chemically modified starches decreased, but acetylated starch, ATAS showed higher value compared to the native and also chemically modified starches improved oil absorption capacity of the native starch. The modified starches showed increase in alkaline water retention. Gelation studies revealed that ACAS had higher LGC than the native while some chemically modified starches did not alter the gelation capacity of the native starch except for BAS and ACAS with LGC of 10% and 16% v/w. There were significant differences in functional properties between native and chemically modified starches from acha, so chemical modification improved functional properties. Chemical modifications increased pasting temperature except for ATAS and BAS. Set-back values were reduced after modifications, indicating that modification would minimize starch retrogradation.

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O. O. Olayinka

Effect of heat-moisture treatment on physicochemical properties of white sorghum starch

Physicochemical properties, morphological and X-ray pattern of chemically modified white sorghum starch. (Bicolor-Moench)

Effect of succinylation on the physicochemical, rheological, thermal and retrogradation properties of red and white sorghum starches

Effect of chemical modifications on thermal, rheological and morphological properties of yellow sorghum starch

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

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O. O. Olayinka

Effect of heat-moisture treatment on physicochemical properties of white sorghum starch

Physicochemical properties, morphological and X-ray pattern of chemically modified white sorghum starch. (Bicolor-Moench)

Effect of succinylation on the physicochemical, rheological, thermal and retrogradation properties of red and white sorghum starches

Effect of chemical modifications on thermal, rheological and morphological properties of yellow sorghum starch

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

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