白菜芯粉作为一种新型食品原料制备“纳塔果泥”膏体。

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ken Tokuyasu, Kenji Yamagishi, Yasumasa Ando, Nobuya Shirai
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引用次数: 0

摘要

白菜核(CC)被认为是蔬菜的废物部分,尽管它是可食用的,并且含有各种营养和功能化合物。研究了粒径< 1mm的CC粉作为一种新型食品原料的性能。CC粉比叶源粉更能抵抗结构变形,尤其是粒径≥0.3 mm的CC粉。为了研究椰浆粉在3D打印食品中的应用,我们研究了“椰浆”对椰浆的影响。椰浆是一种由罗望子籽胶(NPTG)制成的椰浆。NPTG促进了用CC粉制成的膏体的稳定结合,用注射器成功地挤压成具有颗粒结构的棒状结构。因此,CC粉具有独特的质地/结构特性,可用于下一代食品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cabbage Core Powder as a New Food Material for Paste Preparation with "Nata Puree".

Cabbage Core Powder as a New Food Material for Paste Preparation with "Nata Puree".

Cabbage Core Powder as a New Food Material for Paste Preparation with "Nata Puree".

Cabbage Core Powder as a New Food Material for Paste Preparation with "Nata Puree".

Cabbage core (CC) is regarded as a waste part of the vegetable, despite being edible and containing various nutritional and functional compounds. We investigated the properties of CC powder with particle sizes < 1 mm as a new food material. CC powder was more resistant to structural deformation than leaf-derived powder, particularly CC powder with particles ≥ 0.3 mm in size. To examine the application of CC powder in 3D printed foods, we investigated the effects of "nata puree," a disintegrated nata de coco made with tamarind seed gum (NPTG), on paste made with CC powder. NPTG promoted stable binding of paste made using CC powder, which was successfully extruded using a syringe to form a bar with a granular structure. Thus, CC powder possesses unique textural/structural properties for its application in next-generation foods.

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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
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9.10%
发文量
13
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