Yazar "Izydorczyk, Marta S." seçeneğine göre listele

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    Comparison of short and long milling flows on yield and physicochemical properties of brans from biofortified and nonbiofortified hull-less oats
    (Wiley, 2020) Acar, Oguz; Izydorczyk, Marta S.; Kletke, Jerry; Yazici, M. Atilla; Imamoglu, Aydin; Cakmak, Ismail; Köksel, Hamit
    Background The aim of this study was to compare bran yields of short- and long-flow roller mill from biofortified (+) and nonbiofortified (-) hull-less oats cv. Haskara and determine effect of biofortification (Zn, I, Se) on composition and physicochemical properties of fractions. Findings Zn, I, and Se contents were significantly increased by biofortification. Yields of coarse bran (CB) obtained by short flow were 42.6% for both Haskara samples, while those of fine bran (FB) obtained by long flow were 46.6% and 47.4% for Haskara (+) and Haskara (-). Beta-glucan (BG) contents of CB were 8.42% and 8.31%, while those of FB were 8.68% and 8.65% for respective samples. There were no significant differences between CB of Haskara (+) and Haskara (-) samples in terms of mass median diameter, dispersion, particle density, porosity, BG solubility, and RVA viscosity. The differences between FB of the same samples were also not significant in terms of those parameters. However, long flow significantly increased dispersion, porosity, BG solubility, and RVA viscosity and significantly decreased mass median diameter and bulk density compared to short flow. Conclusions Biofortified oats can be used to obtain beta-glucan-enriched milling fractions. Significance and novelty This is the first study on bran fractions obtained by different milling flows from biofortified hull-less oats.
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    An investigation on minerals, arabinoxylans and other fibres of biofortified hull-less barley fractions obtained by two milling systems
    (Academic Press, 2020) Acar, Oguz; Izydorczyk, Marta S.; McMillan, Tricia L.; Yazici, Melik; Ozdemir, B.; Cakmak, Ismail; Köksel, Hamit
    The aims of the present study were to compare arabinoxylan, glucomannan, arabinogalactan, dietary fibre and mineral contents of fibre rich and enriched-fibre rich fractions (FRF, E-FRF) obtained by two milling systems from biofortified (+) and non-biofortified (?) hull-less barley cultivar, Yalin and determine impact of biofortification (Zn, I, Se). Arabinoxylan contents and recoveries of FRF obtained by roller mill (FRFR) were 6.52% and 6.70%; 82.6% and 83.3% while those of FRF obtained by hammer mill (FRFH) were 7.36% and 7.24%; 73.9% and 73.5% for Yalin (?) and Yalin (+), respectively. Likewise, arabinoxylan contents and recoveries of E-FRFR were 11.91, 11.66%; 70.8% and 67.2% while those of E-FRFH were 11.70%, 12.13%; 61.3% and 64.9% for Yalin (?) and Yalin (+), respectively. Arabinogalactan contents of E-FRFR and E-FRFH were comparable (1.32–1.45%) for both Yalin samples. Their glucomannan contents were higher than arabinogalactan contents (1.79–1.90%). Furthermore, total dietary fibre contents of E-FRFR and E-FRFH were determined as 2.4–2.7 fold higher than their whole grain Yalin samples. Zinc, iodine, selenium contents (22 mg kg?1, 16 ?g kg?1, 122 ?g kg?1) of the whole grain of Yalin (?) increased through biofortification and milling and reached to 59 mg kg?1, 383 ?g kg?1, 345 ?g kg?1 in E-FRFR of Yalin (+), respectively.