Shin-Yong Yeoh , Ahmad Syahir Zulkipli , Thuan-Chew Tan , Hui-Ling Tan , Kok-Cheong Yong , Azhar Mat Easa
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引用次数: 0
摘要
研究了盐涂层对瓜尔胶涂层(GG)无盐涂层黄碱面(GG-YAN0)和 GG 盐涂层黄碱面(GG-YAN10)的钠(Na)含量、烹饪质量、微观结构和 Na 分布的影响。两种样品释放到烹饪水中的 Na 数量没有明显差异。尽管生 GG-YAN10 的初始 Na 含量较高,但它的 Na 损失率(< 0.05)低于 GG-YAN0。烹饪后,GG-YAN10 的 Na 含量与商品 YAN(COM-YAN)相似,尽管 COM-YAN 的初始 Na 含量较高,但烹饪水中 Na 的损失百分比却较低。微观结构分析表明,GG-YAN10 具有蜂窝状多孔结构和连续的面筋网络,这可能是最佳蒸煮时间和蒸煮损失显著低于 GG-YAN0 的原因。SEM-EDX 分析和线扫描技术显示,GG-YAN10 外表面的 Na 浓度较高,而中心面芯的 Na 浓度较低,这表明瓜尔胶涂层在烹饪前和烹饪过程中都能在面条表面保留盐分。GG-YAN10 盐分保留能力的增强使烹饪后面条的 Na 含量与 COM-YAN 相近,同时还改善了整体烹饪质量。
Comparing cooking qualities, microstructure, and sodium distribution of air-dried guar gum-coated yellow alkaline noodles with and without salt application
The impact of salt coating on sodium (Na) content, cooking qualities, microstructure and Na distribution of yellow alkaline noodles (YAN) were investigated in guar gum-coated (GG) YAN without salt coating (GG-YAN0) and GG-coated YAN with salt (GG-YAN10). No significant difference was reported in the quantity of Na released into the cooking water between the two samples. Despite the higher initial Na content in raw GG-YAN10, it exhibited a lower percentage of Na loss (P < 0.05) than GG-YAN0. GG-YAN10 demonstrated similar Na content to commercial YAN (COM-YAN) after cooking, with a reduced Na percentage loss in the cooking water, even though COM-YAN had a higher initial Na content. Microstructure analysis revealed a honeycomb-like and porous structure with a continuous gluten network in GG-YAN10, potentially contributing to a significantly lower optimum cooking time and cooking loss than GG-YAN0. SEM-EDX analysis and line scan techniques highlighted Na concentration on the outer surface of GG-YAN10 and lower Na concentration in the central core, indicating the ability of guar gum coating to retain salt on the surface of noodles both before and during cooking. The enhanced salt retention of GG-YAN10 yielded noodles with Na content similar to COM-YAN after cooking while also improving overall cooking qualities.
期刊介绍:
LWT - Food Science and Technology is an international journal that publishes innovative papers in the fields of food chemistry, biochemistry, microbiology, technology and nutrition. The work described should be innovative either in the approach or in the methods used. The significance of the results either for the science community or for the food industry must also be specified. Contributions written in English are welcomed in the form of review articles, short reviews, research papers, and research notes. Papers featuring animal trials and cell cultures are outside the scope of the journal and will not be considered for publication.
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