在(1,3)(1,4)-β-葡聚糖存在下,由细菌纤维素凝胶分解制成的“纳塔果泥”,一种用于升级蔬菜粉的新型食品材料。

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Journal of applied glycoscience Pub Date : 2021-11-20 eCollection Date: 2021-01-01 DOI:10.5458/jag.jag.JAG-2021_0009
Ken Tokuyasu, Kenji Yamagishi, Junko Matsuki, Daisuke Nei, Tomoko Sasaki, Masakazu Ike
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引用次数: 2

摘要

粉碎是一种潜在的有效解决方案,用于剩余和非标准农产品的资源管理,长期保持其营养价值并确保其同质性,而其原有的质地可能会消失,以缩小应用范围。因此,应该开发新的技术来改造粉末,使其具有新的物理特性。在此,我们开发了一种新的食品材料,椰浆(细菌纤维素凝胶)分解与水溶性多糖使用家用搅拌机。以(1,3)(1,4)-β-葡聚糖(BGL)为多糖,可以用大麦提取物代替。地衣酶处理显著地改变了NP的物理性质,表明了BGL聚合物形式的重要性。NP表现出不同的马铃薯粉和淀粉结合活性,这将分别归因于其与细胞壁组分的相互作用和NP网络对粉末的物理捕获。NP补充到马铃薯泥提高了其硬度,并使其3D食品打印的可打印范围转移到较低的粉末浓度。NP还促进了粉末在其悬浮液中的分散,并且通过激光照射含有分散的凝乳和姜黄粉的NP悬浮液也可以成功地进行设计的凝胶化。因此,NP可以作为粉末改性剂广泛应用于传统烹饪、食品制造和下一代工艺(如3D食品打印)的产品中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

"Nata Puree," a Novel Food Material for Upgrading Vegetable Powders, Made by Bacterial Cellulose Gel Disintegration in the Presence of (1,3)(1,4)-β-Glucan.

"Nata Puree," a Novel Food Material for Upgrading Vegetable Powders, Made by Bacterial Cellulose Gel Disintegration in the Presence of (1,3)(1,4)-β-Glucan.

"Nata Puree," a Novel Food Material for Upgrading Vegetable Powders, Made by Bacterial Cellulose Gel Disintegration in the Presence of (1,3)(1,4)-β-Glucan.

"Nata Puree," a Novel Food Material for Upgrading Vegetable Powders, Made by Bacterial Cellulose Gel Disintegration in the Presence of (1,3)(1,4)-β-Glucan.

Pulverization is a potentially powerful solution for the resource management of surplus- and non-standard agricultural products, maintaining their nutritional values for long and ensuring their homogeneity, whereas their original textures could disappear to narrow the application ranges. Therefore, new technologies should be developed for reconstructing the powders to provide them with new physical characteristics. Herein, we developed a novel food material, nata puree (NP), by nata de coco (bacterial cellulose gel) disintegration with a water-soluble polysaccharide using a household blender. The process worked well with (1,3)(1,4)-β-glucan (BGL) as the polysaccharide, which could be substituted with barley extract. Lichenase treatment of the NP dramatically modified its physical properties, suggesting the importance of the BGL polymeric forms. NP exhibited distinct potato powder and starch binding activities, which would be attributed to its interactions with the cell wall components and a physical capture of powders by the NP network, respectively. NP supplementation into the potato paste improved its firmness and enabled its printable range shift for 3D food printing to a lower powder-concentration. NP also promoted the dispersion of powders in its suspension, and designed gelation could also be successfully performed by the laser irradiation of an NP suspension containing dispersed curdlan and turmeric powders. Therefore, NP could be applied as a powder modifier to a wide range of products in both conventional cooking, food manufacturing, and next generation processes such as 3D food printing.

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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
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