J. Sudhakara Rao scite author profile

J. Sudhakara Rao

3Publications

62Citation Statements Received

114Citation Statements Given

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113

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Periyar University

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Chemical and structural properties of sweet potato starch treated with organic and inorganic acid

et al. 2014

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In the present study sweet potato starch was treated with hydrochloric acid or citric acid at 1 or 5 % concentration and its properties were investigated. Citric acid treatment resulted higher starch yield. Water holding capacity and water absorption index was increased with increased acid concentration. Emulsion properties improved at 5 % acid concentration. The DE value of acid-thinned sweet potato starches was ranged between 1.93 and 3.76 %. Hydrochloric acid treated starches displayed a higher fraction of amylose. X-ray diffraction (XRD) study revealed that all the starches displayed C-type crystalline pattern with varied crystallinity. FT-IR spectra perceived a slight change in percentage intensity of C-H stretch of citric acid modified starches. Starch granules tended to appear less smooth than the native starch granules after acid treatment in Scanning Electron Micrographs (SEM) with granule size ranging between 8.00 and 8.90 μm. A drastic decrease in the pasting profile was noticed in hydrochloric acid (5 %) treated starch. While 5 % citric acid treated starch exhibited higher pasting profile. Differential Scanning Calorimeter (DSC) showed that peak and conclusion gelatinisation temperatures increased with increase in hydrochloric acid or citric acid concentration. Hence citric acid was found to mimic the hydrochloric acid with some variation which suggests that it may have promising scope in acid modification.

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Physico Chemical Analysis of Sapota (Manilkara zapota) Coated by Edible Aloe Vera Gel

Natarajan

Bosco²,

Rao³

2015

Int J Appl Sci Biotechnol

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The physical and chemical characteristics of the fruit have immense significance as they ultimately affect the quality of processed products prepared from them. Over ripening of Sapota (Manilkara zapota) fruits at the post-harvest stage usually results in dramatic decline in quality. In the present study, physico chemical analysis (which includes Weight loss, Colour, Texture, TSS, pH, TA and Ascorbic acid content) of edible Aloe vera gel coated Sapota fruits packed in LDPE and stored at 15 ± 2℃ were studied at regular intervals of 5 days i.e., 0 th ,5 th , 10 th ,15 th and 20 th days. The dip treatment of Aloe vera gel coating 1:2, 7 minutes had best retained the physico chemical characteristics than the other treatments performed and was found to be the most effective treatment in maintaining the fruit quality attributes along with the shelf life extension of about 20 days.

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Fat Mimicking Properties of Citric Acid Treated Sweet Potato Starch

Babu

Parimalavalli

Jagannadham

et al. 2015

International Journal of Food Properties

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Fat mimicking properties of citric acid treated sweet potato starch were investigated in this present study. Citric acid treated sweet potato starch was prepared by treating the native sweet potato starch with 3% citric acid for 6 h at a temperature of 45°C. Dextrose equivalent value of citric acid treated sweet potato starch was 2.05%. A significant increase in amylose content was noticed in citric acid treated sweet potato starch possibly due to the lyses of amylopectin fractions. The melting temperature of citric acid treated sweet potato starch was 51.44°C, which was close to the melting point of fat. Citric acid treated sweet potato starch exhibited superior water holding capacity and in vitro digestibility. Gel strength and enthalpy (ΔH) of citric acid treated sweet potato starch were comparatively lower than native sweet potato starch; correspondingly, citric acid treated sweet potato starch confirmed a low pasting profile. Native sweet potato starch and citric acid treated sweet potato starch exhibited a shearthinning behavior. Acid treatment did not alter the granule size of native sweet potato starch (≈8 µm). Hence, this study concluded that citric acid treated sweet potato starch would be used as a potential fat replacer in food preparations due to its fat mimicking properties.

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J. Sudhakara Rao

Chemical and structural properties of sweet potato starch treated with organic and inorganic acid

Physico Chemical Analysis of Sapota (Manilkara zapota) Coated by Edible Aloe Vera Gel

Fat Mimicking Properties of Citric Acid Treated Sweet Potato Starch

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