Randy L. Wehling scite author profile

It has long been recognized that limitations exist in the analytical methodology for amylose determination. This study was conducted to evaluate various amylose determination methods. Purified amylose and amylopectin fractions were obtained from corn, rice, wheat, and potato and then mixed in proportion to make 10, 20, 30, 50, and 80% amylose content starch samples for each source. These samples, considered amylose standards, were analyzed using differential scanning calorimetry (DSC), high‐performance size‐exclusion chromatography (HPSEC), and iodine binding procedures to generate standard curves for each of the methods. A single DSC standard equation for cereal starches was developed. The standard curve of potato starch was significantly different. Amylose standard curves prepared using the iodine binding method were also similar for the cereal starches, but different for potato starch. An iodine binding procedure using wavelengths at 620 nm and 510 nm increased the precision of the method. When HPSEC was used to determine % amylose, calculations based on dividing the injected starch mass by amylose peak mass, rather than calculations based on the apparent amylose/amylopectin ratio, decreased the inaccuracies associated with sample dispersion and made the generation of a cereal amylose standard curve possible. Amylose contents of pure starch, starch mixtures from different sources with different amylose ranges, and tortillas were measured using DSC, HPSEC, iodine binding, and the Megazyme amylose/amylopectin kit. All the methods were reproducible (±3.0%). Amylose contents measured by these methods were significantly different (P < 0.05). Amylose measurements using iodine binding, DSC, and Megazyme procedures were highly correlated (correlation coefficient >0.95). DSC and traditional iodine binding procedures likely overestimated true amylose contents as residual butanol in the amylose standards caused interference. The modified two‐wavelength iodine binding procedure seemed to be the most precise and generally applicable method. Each amylose determination method has its benefits and limitations.

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Effect of processing conditions on the prebiotic activity of commercial prebiotics

Hüebner

Wehling

Parkhurst

et al. 2008

International Dairy Journal

150

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Method for determining oxidation of vegetable oils by near‐infrared spectroscopy

Yildiz

Wehling

Cuppett

2001

J Americ Oil Chem Soc

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Use of near-infrared (NIR) transmittance spectroscopy for rapid determination of the oxidation level in soybean oils (SBO) was investigated, and calibrations were developed for quantitative determination of peroxide value (PV), conjugated diene value (CD), and anisidine value (AV) of SBO. Partial least squares (PLS) regression and forward stepwise multiple linear regression were used to develop calibration models from spectral data in log 1/T, first derivative and second derivative of log 1/T formats for both 1-and 2-mm path lengths. The models were validated by comparing NIR results from independent sample sets to the values obtained by official methods. The spectral region from 1100 to 2200 nm was best for measuring oxidation when using a 2-mm path length. PLS regression using first-derivative spectra gave the best results for PV. For the validation sets, linear relationships were obtained for PV (r = 0.99), and CD (r = 0.95), compared with accepted reference procedures. However, measurement of AV by NIR was less successful than measurement of the other two indices of oxidation, especially for an external validation sample set. Results obtained in this study indicate that NIR spectroscopy is a useful technique for measuring oxidation in soybean oil.Paper no. J9687 in JAOCS 78, 495-502 (May 2001).

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Carotenoid Content and Physicochemical and Sensory Characteristics of Carrot Chips Deep‐Fried in Different Oils at Several Temperatures

Sulaeman

Keeler

Giraud

et al. 2001

Journal of Food Science

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The influence of deep-frying using different oils and temperatures on carotenoid content and physicochemical and sensory characteristics of carrot chips was investigated. Sliced carrots were steam-blanched, cooled, soaked in 0.2% sodium metabisulfite, and deep-fried in canola, palm, or partially hydrogenated soybean oil (PHSO) at 165, 175, or 185 Њ Њ Њ Њ ЊC. Frying temperature, but not oil, significantly (P Ͻ Ͻ Ͻ Ͻ Ͻ 0.05) affected the ␣ ␣ ␣ ␣ ␣-carotene, ␤ ␤ ␤ ␤ ␤-carotene, and total carotenoid contents. Oil type significantly (P Ͻ Ͻ Ͻ Ͻ Ͻ 0.05) influenced all color values. Increasing temperature lowered the redness value, which correlated with decreased carotenoid content, color darkening, and decreased hardness value. Trained panelists detected no differences among oil types in crispness, sweetness, odor, and acceptability. The best carrot-chip product was that fried in PHSO at 165 Њ Њ Њ Њ ЊC.

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Randy L. Wehling

Functional activity of commercial prebiotics

Comparison of Amylose Determination Methods and the Development of a Dual Wavelength Iodine Binding Technique

Effect of processing conditions on the prebiotic activity of commercial prebiotics

Method for determining oxidation of vegetable oils by near‐infrared spectroscopy

Carotenoid Content and Physicochemical and Sensory Characteristics of Carrot Chips Deep‐Fried in Different Oils at Several Temperatures

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