豌豆、豇豆、品豆和青豆面粉和淀粉的理化、流变特性以及体外淀粉消化率

Starch Pub Date : 2024-03-13 DOI:10.1002/star.202300303
Bharati Kumari, Nandan Sit
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引用次数: 0

摘要

研究了鸽子豆、豇豆、松豆和海军豆的面粉和淀粉的物理化学、流变特性和消化率。与其他豆类面粉或淀粉相比,品豆面粉(PBF)和品豆淀粉(PBS)的吸水能力(WAC)最高,而豇豆面粉(CPF)和豇豆淀粉(CPS)的吸油能力(OAC)最高。所有脉冲面粉的溶解度都高于所有脉冲淀粉。然而,所有面粉的膨胀力(SP)都低于淀粉,而且不同淀粉的膨胀力也相对不同。与淀粉相比,所有面粉的糊状物透明度和相对结晶度(RC)都更高。然而,与淀粉相比,面粉的糊化性能和稠度指数(K)较低。扫描电子显微镜照片显示,所有淀粉和面粉都具有光滑的颗粒表面。面粉和淀粉都表现出流动性(n <1),粘度随剪切速率的增加而降低,这表明它们具有非牛顿流体特性。与所有面粉相比,所有淀粉都显示出较高的快速消化淀粉(RDS)和抗性淀粉(RS)含量,但较低的缓慢消化淀粉(SDS)含量。这些面粉和淀粉可用作配制功能性食品、汤料和淀粉凝胶的重要原料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Physicochemical, Rheological Properties, and In‐Vitro Starch Digestibility of Flours and Starches from Pigeon Pea, Cowpea, Pinto Bean, and Navy Bean

Physicochemical, Rheological Properties, and In‐Vitro Starch Digestibility of Flours and Starches from Pigeon Pea, Cowpea, Pinto Bean, and Navy Bean
The physicochemical, rheological properties, and digestibility of flours and starches from pigeon pea, cowpea, pinto bean, and navy bean are investigated. Pinto bean flour (PBF) and Pinto bean starch (PBS) show the highest water absorption capacity (WAC), while cowpea flour (CPF) and cowpea starch (CPS) show the highest oil absorption capacity (OAC)‐ than other pulse flour or starches. All pulse flours show higher solubility than all pulse starches. However, the swelling power (SP) of all flours is lower than starches and SP is comparatively different among starches. Paste clarity, and relative crystallinity (RC), are higher in all flours compared to starches. However, pasting properties and consistency index (K) are lower in flour compared to starches. All the flours and starches exhibit CA‐type crystallinity.The Scanning Electron Microscrographs reveals smooth granular surfaces of all starch and flour. Both flours and starches show flow behavior (n < 1) and viscosity decreased with increasing shear rate indicating the non‐Newtonian fluid behavior. All starches show higher rapidly digestible starch (RDS) and resistant starch (RS) content but lower slowly digestible starch (SDS) content than all flours. These flours and starches can be used as valuable ingredients for formulating functional food, soup, and starch gel.
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